Updating OPAL source repository... Already on 'master' Working directory '/vicepa/NightlyBuild/workspace/master/src' is up to date! Updating regression tests repository... Already on 'master' M DisabledTests/FIELDMAPS/FINLB01-RACF.T7 M DisabledTests/FIELDMAPS/FINLB01-RACH.T7 M DisabledTests/FIELDMAPS/FINSB-MSLAC.T7 M DisabledTests/PROSCAN-3/PROSCAN-3.in M DisabledTests/PROSCAN-3/reference/PROSCAN-3.out M DisabledTests/PROSCAN-4/PROSCAN-4.in M DisabledTests/PROSCAN-4/reference/PROSCAN-4.out M RegressionTests/GasStripping/GasStripping.local warning: CRLF will be replaced by LF in DisabledTests/FIELDMAPS/FINLB01-RACF.T7. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/FIELDMAPS/FINLB01-RACH.T7. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/FIELDMAPS/FINSB-MSLAC.T7. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-3/PROSCAN-3.in. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-3/reference/PROSCAN-3.out. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-4/PROSCAN-4.in. The file will have its original line endings in your working directory. warning: CRLF will be replaced by LF in DisabledTests/PROSCAN-4/reference/PROSCAN-4.out. The file will have its original line endings in your working directory. Already up-to-date. Running regression tests... [] Running the following regression tests: AWAGun-1 AWAGun-TrackBack-1 AmrRingCyclotron-01 AmrRingCyclotron-02 AmrRingCyclotron-03 AmrRingCyclotron-04 AmrRingCyclotron-05 AmrRingCyclotron-06 AmrRingCyclotron-07 AmrRingCyclotron-08 AmrRingCyclotron-09 AmrRingCyclotron-10 BeamLine-1 BeamLine-2 CSRBendDrift CompactCyclotron DCGun-Cornell-1 DCGun-Cornell-2 Degrader-1 Distribution-Binomial-1 Distribution-Gauss-1 Distribution-Gauss-2 Distribution-MultiGauss EGunCTF3-1 EGunCTF3-2 Elliptic-1 ExternalFieldTest GasStripping HKick-Test-1 Kick-Test-1 MAP-Circular MAP-FODO MAP-FODODipole MAP-Gantry2 Mask-1 OpalRingTest P3MSwissFEL PROSCAN-1 PROSCAN-2 PSIGUN-1 PerfectDiode Quad-Simple-Test-1 RBend-Simple-Test-1 RBend-Simple-Test-2 RBend-Simple-Test-3 RBend-Simple-Test-4 RestartTest-1 RestartTest-2 RestartTest-3 RestartTest-4 RingCyclotron RingCyclotronMTS RingCyclotronMatched SBend-Simple-Test-1 SBend-Simple-Test-2 SBend-Simple-Test-3 SBend-Simple-Test-4 Slit-1 Slit-2 UndulatorAWA VFFA-1 VKick-Test-1 opalimpact-1 Running test: ./AWAGun-1.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2024.2 OPAL{0}> git rev. ddba266f5d9d8db92319c2fd093aeb82a0706e2e OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 21:49:06 date: 09/12/2024 OPAL{0}> OPAL{0}> * Reading input stream 'AWAGun-1.in' OPAL{0}> OPAL{0}> value: {EDES,P0,OPALVERSION} = {1.4e-09, 1.19616e-06, 20242} OPAL{0}> OPAL{0}> OPAL{0}> value: {KSBF,SF} = {0.120154, 0.379111} OPAL{0}> OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> OPAL{0}> * ************* T R A C K R U N *************************************************** OPAL{0}> * Selected Tracking Method == PARALLEL-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Phase space dump frequency = 300000 OPAL{0}> * Statistics dump frequency = 10 w.r.t. the time step. OPAL{0}> * DT = 1e-13 [s] OPAL{0}> * MAXSTEPS = 19000 OPAL{0}> * Mass of simulation particle = 318.94 [GeV/c^2] OPAL{0}> * Charge of simulation particle = -1e-13 [C] OPAL{0}> * ********************************************************************************** Ippl{0}> * Creating new file for data: 'AWAGun-1.stat' Ippl{0}> * Creating new file for data: 'AWAGun-1.lbal' OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 10000 OPAL{0}> * OPAL{0}> * Distribution input momentum units: [Beta Gamma] OPAL{0}> * OPAL{0}> * Distribution type: FLATTOP OPAL{0}> * OPAL{0}> * SIGMAX = 7.500000e-04 [m] OPAL{0}> * SIGMAY = 7.500000e-04 [m] OPAL{0}> * Sigma Time Rise = 3.556773e-12 [sec] OPAL{0}> * TPULSEFWHM = 2.000000e-11 [sec] OPAL{0}> * Sigma Time Fall = 3.556773e-12 [sec] OPAL{0}> * Longitudinal cutoff = 4.000000e+00 [units of Sigma Time] OPAL{0}> * Flat top modulation amplitude = 0.000000e+00 [Percent of distribution amplitude] OPAL{0}> * Flat top modulation periods = 0.000000e+00 OPAL{0}> * OPAL{0}> * Number of energy bins = 9 OPAL{0}> * Distribution is emitted. OPAL{0}> * Emission time = 4.007862e-11 [sec] OPAL{0}> * Time per bin = 4.453180e-12 [sec] OPAL{0}> * Delta t during emission = 4.048346e-13 [sec] OPAL{0}> * OPAL{0}> * ------------- THERMAL EMITTANCE MODEL -------------------------------------------- OPAL{0}> * THERMAL EMITTANCE in ASTRA MODE OPAL{0}> * Kinetic energy (thermal emittance) = 5.500000e-01 [eV] OPAL{0}> * ---------------------------------------------------------------------------------- OPAL{0}> * OPAL{0}> * Write initial distribution to file 'data/AWAGun-1_DIST.dat' OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE ELECTRON OPAL{0}> * REST MASS 5.109990e-04 [GeV] OPAL{0}> * CHARGE -e * 1.000000e+00 OPAL{0}> * MOMENTUM 1.196160e+03 [eV/c] OPAL{0}> * MOMENTUM TOLERANCE 1.000000e-02 OPAL{0}> * CURRENT 1.300000e+00 [A] OPAL{0}> * FREQUENCY 1.300000e+03 [MHz] OPAL{0}> * NPART 1.000000e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS_SC OPAL{0}> * TYPE FFT OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 1.600000e+01 OPAL{0}> * MY 1.600000e+01 OPAL{0}> * MT 1.600000e+01 OPAL{0}> * BBOXINCR 1.000000e+00 OPAL{0}> * GREENSF INTEGRATED OPAL{0}> * XDIM serial OPAL{0}> * YDIM serial OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> RFCavity {0}[2]> GUN using file DriveGun.T7 (2D dynamic); zini= 0 m; zfinal= 0.292707 m; Solenoid {0}[2]> BF using file BF_550.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Solenoid {0}[2]> M using file M_440.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Ippl{0}> Ippl{0}> * ************* G U N ************************************************************** Ippl{0}[2]> estimated phase= 2.4642028 rad = 141.18842 deg Ippl{0}[2]> Ekin= 6.2824668 MeV Ippl{0}[2]> Ippl{0}> GUN_phi = 140.4697 [deg], corresp. in Astra = 230.4697 [deg], Ippl{0}> E = 6.2831 [MeV], phi_nom = 0.0000 [deg] Ippl{0}> Ez_0 = 60.0000 [MV/m] Ippl{0}> time = 0.0000 [ns], dt = 0.1000 [ps] Ippl{0}> * ********************************************************************************** Ippl{0}> OPAL{0}> OPAL{0}> * Size of map 4 sections OPAL{0}> * Key: ( 0.000000 - 0.292705) number of overlapping elements 3 OPAL{0}> * GUN OPAL{0}> * BF OPAL{0}> * M OPAL{0}> * Key: ( 0.292705 - 0.499992) number of overlapping elements 2 OPAL{0}> * BF OPAL{0}> * M OPAL{0}> * Key: ( 0.499992 - 10.500004) number of overlapping elements 1 OPAL{0}> * DR1 OPAL{0}> * Key: (10.500004 - 10.500034) number of overlapping elements 0 OPAL{0}> Ippl{0}> * Creating new file for data: 'data/AWAGun-1_ElementPositions.sdds' Ippl{0}> Saved phases in the h5 file: Cav-1-name -> GUN --- Cav-1-value -> 2.4517 OPAL{0}> OPAL{0}> * Track start at: 21:49:07, t= -20.039 [ps]; zstart at: 0.000 [um] ParallelTTracker {0}[2]> Do emission for 4.00786e-11 [s] using 9 energy bins ParallelTTracker {0}> Change dT from 1e-13 [s] to 4.04835e-13 [s] during emission OPAL{0}> * Executing ParallelTTracker OPAL{0}> * Initial dt = 100.000 [fs] OPAL{0}> * Max integration steps = 38000, next step = 0 OPAL{0}> ParallelTTracker {0}[2]> MINBINEMITTED 10 ParallelTTracker {0}[2]> MINSTEPFORREBIN 200 ParallelTTracker {0}[2]> REPARTFREQ 1000 Ippl{0}[2]> Bin 0 gamma = 1.00035e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00003e+00; NpInBin= 3 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> Bin 0 gamma = 1.00065e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00005e+00; NpInBin= 12 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 6.01522e-02 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00104e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00013e+00; NpInBin= 17 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 9.15563e-02 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00153e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00022e+00; NpInBin= 25 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.31272e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00212e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00026e+00; NpInBin= 45 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.86320e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00281e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00038e+00; NpInBin= 58 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.42750e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00360e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00045e+00; NpInBin= 86 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.14509e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00449e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00054e+00; NpInBin= 119 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.94269e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00547e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00064e+00; NpInBin= 160 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.83260e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00656e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00072e+00; NpInBin= 216 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 5.83478e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00775e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00085e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 has no particles Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 6.89708e-01 [%] between bin 0 and 1 Ippl{0}[2]> Bin 0 gamma = 1.00905e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00123e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00002e+00; NpInBin= 73 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 7.80611e-01 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.20958e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01044e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00172e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00008e+00; NpInBin= 148 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 8.71258e-01 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.63786e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01194e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00230e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00014e+00; NpInBin= 262 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 9.61608e-01 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.15750e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01354e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00299e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00025e+00; NpInBin= 367 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.05165e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.74188e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01525e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00379e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00039e+00; NpInBin= 473 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.14125e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.39517e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01706e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00469e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00056e+00; NpInBin= 587 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.23170e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.12421e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.01900e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00569e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00072e+00; NpInBin= 746 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.32260e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.96827e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02102e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00681e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00093e+00; NpInBin= 892 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.41227e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.87256e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02317e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00802e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00115e+00; NpInBin= 1056 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.50327e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 6.86640e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02545e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.00934e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00138e+00; NpInBin= 1231 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.59637e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 7.94258e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.02784e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01076e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00166e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 has no particles Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.69005e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 9.08204e-01 [%] between bin 1 and 2 Ippl{0}[2]> Bin 0 gamma = 1.03034e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01228e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00220e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00002e+00; NpInBin= 227 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.78450e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.00525e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.17824e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.03296e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01390e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00285e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00008e+00; NpInBin= 452 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.87912e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.10261e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.76576e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.03568e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01564e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00359e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00018e+00; NpInBin= 651 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 1.97318e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.20144e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.40792e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.03852e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01749e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00442e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00031e+00; NpInBin= 858 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.06725e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.30097e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.11638e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.04148e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.01945e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00536e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00046e+00; NpInBin= 1066 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.16102e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.40160e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.89203e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.04455e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02153e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00639e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00066e+00; NpInBin= 1250 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.25405e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.50437e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.71799e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.04774e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02372e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00751e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00087e+00; NpInBin= 1470 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.34565e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.60983e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.62528e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.05104e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02604e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.00873e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00112e+00; NpInBin= 1674 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.43620e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.71688e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.59314e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.05446e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.02849e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01004e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00140e+00; NpInBin= 1875 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.52488e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.82685e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 8.62874e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.05800e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03107e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01146e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00170e+00; NpInBin= 2071 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.61184e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 1.93892e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 9.73467e-01 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.06165e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03377e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01297e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00204e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 has no particles Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.69726e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.05298e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.09114e+00 [%] between bin 2 and 3 Ippl{0}[2]> Bin 0 gamma = 1.06542e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03659e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01459e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00260e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00003e+00; NpInBin= 203 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.78081e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.16856e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.19587e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.57515e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.06930e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.03955e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01633e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00324e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00008e+00; NpInBin= 377 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.86232e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.28508e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.30388e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.16365e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.07331e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.04263e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.01817e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00397e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00016e+00; NpInBin= 563 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 2.94180e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.40246e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.41480e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.80829e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.07742e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.04585e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02013e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00478e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00026e+00; NpInBin= 779 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.01916e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.52060e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.52814e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.52240e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.08166e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.04919e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02221e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00567e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00038e+00; NpInBin= 969 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.09431e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.63900e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.64524e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.28289e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.08600e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.05266e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02442e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00664e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00054e+00; NpInBin= 1155 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.16723e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.75650e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.76696e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.09405e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.09046e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.05626e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02676e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00769e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00071e+00; NpInBin= 1360 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.23788e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.87362e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 1.89202e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.97319e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.09504e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.05999e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.02922e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.00883e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00090e+00; NpInBin= 1571 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.30623e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 2.98960e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.02097e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.92325e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.09973e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.06385e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.03182e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01007e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00113e+00; NpInBin= 1760 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.37227e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.10414e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.15378e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.92759e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.10453e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.06784e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.03455e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01139e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00138e+00; NpInBin= 1958 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.43599e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.21712e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.29028e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 9.99977e-01 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.10944e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.07195e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.03742e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01281e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00163e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 has no particles Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.49738e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.32836e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.42964e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.11595e+00 [%] between bin 3 and 4 Ippl{0}[2]> Bin 0 gamma = 1.11446e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.07618e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.04042e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01433e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00209e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00003e+00; NpInBin= 183 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.55645e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.43733e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.57224e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.22137e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.06573e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.11959e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.08055e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.04356e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01596e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00262e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00007e+00; NpInBin= 369 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.61321e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.54411e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.71689e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.33033e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.54874e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.12483e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.08503e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.04684e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01769e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00323e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00014e+00; NpInBin= 569 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.66765e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.64864e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 2.86395e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.44150e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.09169e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.13018e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.08964e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.05025e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.01954e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00391e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00023e+00; NpInBin= 759 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.71979e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.75076e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.01244e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.55663e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.68343e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.13563e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.09438e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.05380e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02151e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00466e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00034e+00; NpInBin= 938 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.76966e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.85037e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.16144e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.67683e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.31496e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.14119e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.09923e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.05749e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02360e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00549e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00048e+00; NpInBin= 1147 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.81728e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 3.94737e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.31096e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.80130e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.00780e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.14686e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.10421e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.06131e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02581e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00639e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00064e+00; NpInBin= 1337 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.86267e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.04166e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.46085e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 1.92921e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.75418e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.15263e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.10930e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.06527e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.02815e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00738e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00081e+00; NpInBin= 1538 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.90588e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.13323e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.61048e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.06168e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.56364e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.15850e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.11451e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.06936e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03062e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00844e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00101e+00; NpInBin= 1736 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.94695e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.22201e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.75903e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.19912e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.42561e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.16447e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.11984e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.07359e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03322e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.00960e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00125e+00; NpInBin= 1920 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 3.98590e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.30797e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 3.90679e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.34018e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 8.33967e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.17055e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.12528e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.07795e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03596e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01084e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00150e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 has no particles Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.02280e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.39110e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.05295e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.48527e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 9.32826e-01 [%] between bin 4 and 5 Ippl{0}[2]> Bin 0 gamma = 1.17673e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.13084e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.08244e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.03884e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01218e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00193e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00003e+00; NpInBin= 181 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.05768e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.47142e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.19728e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.63377e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.02327e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.89838e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.18300e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.13651e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.08706e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.04185e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01361e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00243e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00007e+00; NpInBin= 368 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.09059e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.54892e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.33962e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.78574e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.11567e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.35675e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.18937e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.14229e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.09181e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.04500e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01515e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00301e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00014e+00; NpInBin= 544 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.12157e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.62358e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.47979e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 2.94033e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.21057e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.86675e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.19584e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.14819e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.09669e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.04829e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01679e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00365e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00023e+00; NpInBin= 711 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.15068e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.69544e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.61736e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.09755e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.30913e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.41937e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.20241e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.15419e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.10170e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.05172e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.01855e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00437e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00035e+00; NpInBin= 878 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.17796e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.76452e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.75222e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.25598e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.41243e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.01412e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.20907e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.16030e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.10683e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.05529e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02043e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00516e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00052e+00; NpInBin= 999 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.20346e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.83085e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 4.88427e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.41595e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.51913e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.63875e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.21583e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.16651e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.11208e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.05899e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02242e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00603e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00070e+00; NpInBin= 1144 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.22725e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.89446e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.01340e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.57697e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.62882e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.33178e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.22267e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.17283e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.11746e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.06284e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02454e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00699e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00093e+00; NpInBin= 1246 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.24935e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 4.95539e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.13945e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.73830e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.74241e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 6.05384e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.22961e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.17926e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.12296e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.06682e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02678e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00803e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00121e+00; NpInBin= 1330 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.26984e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.01370e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.26235e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 3.89951e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.86009e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 6.81267e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.23664e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.18579e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.12858e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.07094e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.02915e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.00915e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00153e+00; NpInBin= 1407 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.28875e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.06942e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.38201e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.05995e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 1.98185e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 7.61749e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.24376e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.19242e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.13431e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.07519e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.03167e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01037e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00188e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 has no particles Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.30615e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.12261e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.49837e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.21906e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.10773e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 8.46970e-01 [%] between bin 5 and 6 Ippl{0}[2]> Bin 0 gamma = 1.25097e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.19915e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.14016e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.07958e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.03431e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01168e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00238e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00003e+00; NpInBin= 61 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.32206e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.17333e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.61136e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.37669e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.23742e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 9.27712e-01 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.35079e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.25827e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.20597e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.14613e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.08410e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.03710e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01308e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00294e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00007e+00; NpInBin= 107 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.33655e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.22163e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.72096e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.53263e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.37048e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.01116e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.86868e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.26565e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.21290e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.15220e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.08876e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04002e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01459e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00358e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00013e+00; NpInBin= 160 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.34967e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.26755e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.82713e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.68661e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.50640e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.09744e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.44151e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.27312e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.21992e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.15839e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.09355e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04308e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01620e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00429e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00026e+00; NpInBin= 178 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.36145e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.31115e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 5.92987e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.83832e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.64480e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.18663e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 4.02932e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.28068e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.22703e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.16469e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.09847e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04628e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01793e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00508e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00040e+00; NpInBin= 207 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.37193e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.35248e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.02919e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 4.98749e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.78511e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.27881e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 4.67969e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.28832e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.23424e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.17110e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.10351e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.04963e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.01978e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00596e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00060e+00; NpInBin= 223 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.38117e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.39161e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.12510e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.13389e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 2.92698e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.37400e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 5.35603e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.29604e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.24155e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.17762e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.10869e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.05311e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02174e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00692e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00085e+00; NpInBin= 235 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.38919e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.42858e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.21761e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.27731e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.06998e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.47210e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 6.06666e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.30385e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.24894e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.18424e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.11398e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.05674e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02383e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00798e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00112e+00; NpInBin= 252 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.39605e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.46346e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.30676e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.41760e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.21374e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.57300e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 6.84543e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.31173e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.25643e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.19097e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.11941e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.06050e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02605e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.00913e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00150e+00; NpInBin= 257 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.40177e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.49631e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.39256e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.55459e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.35790e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.67657e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 7.61699e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.31970e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.26400e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.19779e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.12495e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.06441e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.02839e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01038e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00194e+00; NpInBin= 262 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.40640e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.52717e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.47504e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.68818e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.50209e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.78257e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 8.42503e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.32774e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.27166e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.20472e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.13062e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.06845e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03087e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01174e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00242e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 has no particles Ippl{0}[2]> d(gamma)= 4.41000e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.55610e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.55425e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.81829e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.64600e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 1.89080e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 9.29896e-01 [%] between bin 6 and 7 Ippl{0}[2]> Bin 0 gamma = 1.33586e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.27941e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.21175e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.13641e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.07264e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03348e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01320e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00304e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00004e+00; NpInBin= 5 Ippl{0}[2]> d(gamma)= 4.41259e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.58315e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.63022e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 5.94482e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.78928e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.00103e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.01364e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 3.00211e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.34406e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.28724e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.21888e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.14231e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.07696e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03622e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01478e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00375e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00010e+00; NpInBin= 8 Ippl{0}[2]> d(gamma)= 4.41423e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.60837e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.70300e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.06775e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 3.93161e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.11302e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.09946e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 3.64953e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.35234e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.29516e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.22611e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.14833e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.08143e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.03911e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01647e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00455e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00018e+00; NpInBin= 12 Ippl{0}[2]> d(gamma)= 4.41494e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.63181e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.77264e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.18704e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.07270e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.22649e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.18723e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 4.36467e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.36069e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.30316e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.23343e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.15447e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.08602e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04213e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.01828e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00545e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00036e+00; NpInBin= 13 Ippl{0}[2]> d(gamma)= 4.41477e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.65350e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.83921e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.30266e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.21227e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.34120e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.27682e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 5.08864e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.36912e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.31124e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.24084e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.16072e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09075e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04528e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02022e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00645e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00059e+00; NpInBin= 14 Ippl{0}[2]> d(gamma)= 4.41375e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.67350e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.90277e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.41461e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.35009e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.45687e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.36808e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 5.85678e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.37762e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.31941e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.24835e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.16708e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09562e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04858e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02227e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00755e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00088e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41190e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.69186e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.96337e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.52287e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.48595e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.57322e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.46083e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 6.67361e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.37972e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32143e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25022e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.16867e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09684e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.04941e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02280e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00784e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00097e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41132e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.69614e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.97786e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.54900e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.51914e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.60200e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.48392e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 6.86736e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38184e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32346e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25209e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17026e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09807e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05026e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02333e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00814e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00107e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41069e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.70032e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 6.99218e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.57491e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.55219e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.63080e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.50709e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.06188e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38395e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32550e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25397e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17186e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.09930e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05111e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02388e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00844e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00118e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.41002e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.70440e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.00632e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.60059e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.58511e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.65963e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.53033e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.25717e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38607e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32754e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25585e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17347e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10055e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05197e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02443e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00875e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00129e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40930e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.70840e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.02030e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.62605e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.61790e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.68846e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.55365e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.45321e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.38820e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.32958e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25774e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17508e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10180e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05284e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02498e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00907e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00141e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40853e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.71229e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.03410e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.65128e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.65054e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.71731e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.57703e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.64999e-01 [%] between bin 7 and 8 ParallelTTracker {0}[2]> 21:49:10 Step 99 at 1.336 [mm], t= 18.310 [ps], E=63.208 [keV] Ippl{0}[2]> Bin 0 gamma = 1.39033e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33163e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.25963e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17670e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10306e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05371e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02555e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00939e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00153e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40771e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.71610e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.04773e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.67629e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.68304e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.74616e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.60048e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 7.84750e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39246e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33369e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26153e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17833e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10433e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05460e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02612e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.00972e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00166e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40685e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.71981e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.06119e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.70107e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.71539e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.77502e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.62399e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.04572e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39460e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33575e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26344e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.17996e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10560e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05549e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02670e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01006e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00180e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40594e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.72343e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.07448e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.72563e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.74760e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.80388e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.64757e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.24465e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39674e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33781e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26535e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18160e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10688e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05639e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02729e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01041e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00195e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40499e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.72697e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.08760e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.74997e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.77966e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.83273e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.67120e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.44425e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.39889e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.33988e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26726e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18324e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10818e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05730e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02789e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01076e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00210e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40399e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73041e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.10055e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.77409e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.81157e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.86158e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.69489e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.64452e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40104e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34195e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.26918e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18490e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.10948e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05822e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02849e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01112e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00225e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40295e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73376e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.11333e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.79798e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.84333e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.89041e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.71863e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 8.84545e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40320e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34403e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27111e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18656e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11078e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.05915e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02911e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01148e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00241e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40187e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73703e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.12595e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.82165e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.87494e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.91923e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.74242e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.04700e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40536e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34612e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27304e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18822e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11210e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06009e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.02973e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01186e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00258e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.40074e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74021e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.13840e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.84510e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.90639e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.94804e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.76625e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.24917e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40752e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.34820e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27498e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.18989e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11342e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06103e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03036e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01224e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00276e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39957e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74330e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.15069e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.86833e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.93768e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 2.97682e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.79013e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.45194e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.40969e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35030e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27692e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19157e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11475e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06198e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03099e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01263e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00294e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39835e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74630e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.16281e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.89133e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.96882e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.00558e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.81405e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.65529e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41186e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35239e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.27887e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19326e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11609e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06294e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03164e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01302e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00313e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39709e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74923e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.17477e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.91412e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 4.99980e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.03432e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.83801e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 9.85919e-01 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41404e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35450e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28082e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19495e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11743e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06391e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03229e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01342e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00333e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39579e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75206e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.18656e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.93668e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.03061e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.06302e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.86201e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.00636e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41622e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35660e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28278e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19664e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.11879e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06489e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03295e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01383e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00353e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39445e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75482e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.19820e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.95903e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.06126e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.09169e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.88603e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.02686e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.41840e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.35871e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28474e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.19835e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12015e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06588e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03362e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01425e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00374e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39307e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75749e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.20967e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 6.98115e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.09175e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.12033e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.91009e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.04740e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42059e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36083e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28671e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20006e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12152e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06687e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03430e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01468e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00395e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39165e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76008e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.22098e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.00306e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.12207e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.14893e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.93417e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.06800e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42279e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36295e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.28869e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20177e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12289e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06787e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03499e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01511e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00418e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.39019e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76259e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.23214e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.02475e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.15222e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.17749e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.95827e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.08863e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42498e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36507e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29067e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20350e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12428e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06889e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03568e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01555e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00441e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38869e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76501e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.24313e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.04622e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.18220e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.20601e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 1.98239e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.10931e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42718e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36720e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29265e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20522e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12567e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.06990e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03638e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01600e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00464e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38715e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76736e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.25397e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.06747e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.21201e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.23448e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.00654e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.13004e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.42939e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.36934e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29464e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20696e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12707e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07093e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03709e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01645e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00489e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38557e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76962e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.26466e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.08851e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.24165e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.26291e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.03069e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.15080e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43160e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37148e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29664e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.20870e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12847e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07197e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03781e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01692e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00514e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38395e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77181e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.27518e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.10933e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.27111e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.29128e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.05486e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.17159e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43381e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37362e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.29864e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21045e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.12989e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07301e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03854e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01739e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00540e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38229e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77392e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.28556e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.12994e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.30039e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.31960e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.07904e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.19242e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43603e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37577e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30064e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21220e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13131e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07407e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.03927e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01787e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00566e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.38060e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77595e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.29578e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.15034e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.32950e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.34786e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.10322e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.21328e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.43825e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.37792e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30265e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21396e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13274e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07513e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04002e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01835e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00594e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37887e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77791e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.30584e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.17052e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.35844e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.37607e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.12741e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.23418e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44048e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38007e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30467e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21573e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13417e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07620e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04077e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01885e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00622e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37710e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77979e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.31576e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.19049e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.38719e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.40422e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.15160e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.25509e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44271e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38223e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30669e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21750e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13562e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07728e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04153e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01935e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00651e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37530e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78159e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.32552e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.21025e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.41576e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.43231e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.17578e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.27604e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44495e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38440e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.30871e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.21928e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13707e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07836e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04230e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.01986e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00680e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37346e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78332e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.33513e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.22980e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.44414e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.46033e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.19996e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.29700e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44718e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38657e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31074e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22106e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13853e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.07946e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04307e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02038e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00710e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.37158e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78498e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.34460e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.24914e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.47234e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.48829e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.22413e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.31799e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.44943e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.38874e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31278e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22285e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.13999e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08056e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04386e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02090e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00741e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36967e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78656e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.35391e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.26827e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.50036e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.51618e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.24829e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.33899e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45167e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39092e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31482e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22465e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14147e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08167e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04465e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02144e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00773e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36772e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78806e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.36308e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.28720e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.52819e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.54400e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.27244e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.36001e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45392e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39310e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31686e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22645e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14295e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08279e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04545e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02198e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00806e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36574e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78950e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.37210e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.30592e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.55584e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.57174e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.29658e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.38104e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45618e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39529e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.31892e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.22826e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14443e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08392e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04626e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02253e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00839e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36372e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79086e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.38098e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.32443e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.58330e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.59942e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.32069e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.40208e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.45844e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39748e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32097e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23007e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14593e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08505e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04707e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02309e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00873e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.36167e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79216e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.38970e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.34274e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.61057e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.62701e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.34478e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.42313e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46070e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.39968e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32303e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23189e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14743e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08620e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04790e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02365e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00908e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35958e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79338e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.39829e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.36084e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.63765e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.65453e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.36885e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.44418e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46297e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40188e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32510e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23372e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.14894e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08735e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04873e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02422e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00943e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35747e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79453e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.40673e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.37874e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.66454e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.68196e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.39289e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.46524e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46524e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40408e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32717e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23555e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15046e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08851e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.04958e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02481e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.00980e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35532e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79561e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.41503e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.39643e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.69125e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.70931e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.41691e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.48631e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46751e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40629e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.32924e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23739e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15198e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.08968e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05043e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02540e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01017e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35314e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79663e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.42319e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.41393e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.71776e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.73657e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.44089e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.50737e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.46979e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.40851e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33132e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.23923e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15351e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09085e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05128e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02600e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01055e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.35092e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79757e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.43121e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.43122e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.74408e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.76375e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.46483e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.52843e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47207e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41072e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33341e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24108e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15505e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09204e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05215e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02660e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01094e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34868e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79844e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.43909e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.44832e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.77022e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.79084e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.48874e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.54948e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47436e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41294e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33550e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24294e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15659e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09323e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05303e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02722e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01133e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34640e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79925e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.44684e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.46521e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.79616e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.81784e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.51261e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.57053e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47665e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41517e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33759e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24480e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15815e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09443e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05391e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02784e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01174e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34410e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79999e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.45444e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.48191e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.82191e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.84475e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.53643e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.59157e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.47894e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41740e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.33969e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24666e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.15970e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09564e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05480e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02847e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01215e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.34176e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80066e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.46191e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.49841e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.84746e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.87156e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.56022e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.61259e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48124e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.41963e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34179e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.24854e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16127e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09685e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05570e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02911e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01257e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33939e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80127e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.46925e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.51471e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.87283e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.89827e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.58395e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.63361e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48354e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42187e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34390e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25042e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16284e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09808e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05661e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.02976e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01299e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33700e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80181e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.47645e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.53081e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.89800e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.92489e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.60764e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.65460e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48584e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42412e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34602e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25230e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16442e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.09931e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05752e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03041e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01343e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33457e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80228e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.48352e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.54672e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.92298e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.95140e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.63127e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.67558e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.48815e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42636e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.34813e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25419e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16601e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10055e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05845e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03108e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01387e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.33212e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80269e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.49046e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.56244e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.94777e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 3.97781e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.65485e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.69654e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49047e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.42861e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35026e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25608e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16760e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10180e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.05938e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03175e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01433e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32963e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80303e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.49726e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.57796e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.97236e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.00412e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.67838e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.71748e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49278e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43087e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35238e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25799e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.16920e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10306e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06032e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03243e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01479e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32712e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80331e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.50394e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.59329e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 5.99676e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.03033e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.70185e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.73839e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49510e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43313e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35452e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.25989e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17081e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10432e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06127e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03312e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01526e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32458e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80353e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.51048e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.60843e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.02097e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.05642e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.72525e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.75927e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49743e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43539e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35665e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26181e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17243e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10559e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06223e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03381e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01573e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.32201e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80368e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.51690e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.62338e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.04498e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.08241e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.74860e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.78013e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.49976e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43766e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.35880e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26372e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17405e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10687e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06319e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03452e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01622e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31941e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80377e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.52319e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.63813e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.06881e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.10829e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.77188e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.80096e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50209e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.43993e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36094e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26565e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17568e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10816e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06417e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03523e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01671e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31679e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80380e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.52936e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.65270e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.09243e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.13406e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.79510e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.82175e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50442e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44220e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36309e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26758e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17731e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.10946e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06515e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03595e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01721e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31414e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80376e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.53539e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.66708e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.11587e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.15971e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.81824e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.84251e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50676e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44448e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36525e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.26951e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.17895e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11076e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06614e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03669e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01772e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.31147e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80367e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.54131e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.68127e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.13911e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.18526e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.84132e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.86323e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.50910e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44677e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36741e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27145e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18060e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11207e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06714e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03742e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01824e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30876e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80351e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.54710e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.69527e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.16216e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.21068e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.86433e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.88391e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51145e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.44905e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.36957e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27340e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18226e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11339e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06815e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03817e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01877e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30604e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80330e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.55277e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.70909e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.18502e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.23599e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.88726e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.90455e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51380e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45135e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37174e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27535e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18392e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11472e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.06916e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03893e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01930e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30328e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80302e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.55832e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.72272e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.20769e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.26117e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.91012e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.92514e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51616e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45364e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37392e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27730e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18559e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11605e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07018e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.03969e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.01985e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.30050e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80269e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.56375e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.73617e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.23016e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.28624e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.93291e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.94569e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.51851e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45594e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37610e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.27927e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18726e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11740e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07121e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04046e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02040e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.29770e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80230e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.56906e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.74943e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.25244e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.31119e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.95562e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.96620e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52087e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.45824e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.37828e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28123e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.18894e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.11875e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07225e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04124e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02096e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.29487e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80185e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.57425e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.76252e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.27453e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.33601e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 2.97825e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 1.98665e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52324e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46055e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38047e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28321e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19063e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12010e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07330e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04203e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02153e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.29202e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80134e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.57932e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.77542e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.29642e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.36070e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.00080e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.00706e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52561e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46286e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38266e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28519e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19233e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12147e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07436e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04283e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02211e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28915e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80077e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.58427e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.78814e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.31813e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.38527e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.02326e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.02741e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.52798e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46518e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38485e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28717e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19403e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12284e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07542e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04363e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02269e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28625e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.80015e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.58911e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.80069e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.33964e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.40971e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.04565e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.04771e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53036e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46750e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38706e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.28916e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19574e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12422e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07649e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04445e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02329e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28332e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79947e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.59383e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.81306e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.36096e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.43402e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.06795e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.06796e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53273e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.46982e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.38926e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29115e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19745e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12561e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07757e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04527e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02389e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.28038e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79874e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.59843e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.82525e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.38209e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.45821e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.09016e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.08815e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53512e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47215e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39147e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29315e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.19917e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12701e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07866e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04610e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02450e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.27741e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79795e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.60292e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.83726e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.40303e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.48226e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.11229e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.10827e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53750e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47448e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39369e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29516e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20090e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12841e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.07976e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04694e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02512e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.27442e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79711e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.60730e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.84910e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.42378e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.50619e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.13433e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.12834e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.53989e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47681e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39590e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29717e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20263e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.12982e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08086e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04779e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02575e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.27141e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79621e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.61157e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.86077e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.44434e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.52998e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.15627e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.14835e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54229e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.47915e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.39813e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.29918e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20437e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13124e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08197e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04865e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02639e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.26838e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79526e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.61572e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.87226e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.46471e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.55363e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.17813e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.16829e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54468e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48149e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40035e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30121e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20612e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13267e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08309e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.04951e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02704e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.26532e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79425e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.61976e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.88358e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.48489e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.57716e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.19989e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.18817e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54709e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48384e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40259e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30323e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20787e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13410e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08422e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05038e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02769e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.26224e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79320e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.62369e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.89473e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.50488e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.60054e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.22156e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.20798e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.54949e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48619e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40482e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30526e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.20963e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13554e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08536e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05126e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02835e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.25915e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79209e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.62752e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.90571e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.52468e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.62379e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.24314e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.22772e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55190e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.48854e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40706e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30730e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21140e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13699e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08650e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05215e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02903e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.25603e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.79093e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.63123e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.91652e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.54430e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.64691e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.26462e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.24739e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55431e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49090e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.40931e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.30934e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21317e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13845e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08765e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05305e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.02971e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.25289e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78972e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.63484e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.92716e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.56373e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.66988e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.28600e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.26699e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55672e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49326e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41156e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31139e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21495e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.13991e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08881e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05396e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03040e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24973e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78846e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.63833e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.93764e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.58297e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.69272e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.30728e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.28652e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.55914e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49563e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41381e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31344e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21673e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14138e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.08998e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05487e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03110e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24656e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78715e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.64173e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.94795e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.60202e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.71542e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.32847e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.30598e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56156e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.49800e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41607e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31550e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.21853e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14286e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09116e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05580e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03180e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24336e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78579e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.64501e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.95809e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.62089e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.73798e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.34955e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.32536e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56399e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50037e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.41833e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31756e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22032e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14434e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09234e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05673e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03252e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.24014e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78438e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.64819e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.96807e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.63957e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.76040e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.37053e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.34466e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56642e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50275e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42060e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.31963e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22213e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14584e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09354e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05767e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03324e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.23691e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78292e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65127e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.97789e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.65807e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.78268e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.39141e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.36388e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.56885e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50513e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42287e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32170e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22394e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14734e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09474e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05861e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03397e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.23365e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.78141e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65424e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.98754e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.67638e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.80481e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.41219e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.38303e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57128e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50751e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42514e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32378e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22575e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.14884e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09594e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.05957e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03472e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.23038e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77986e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65712e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 7.99704e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.69451e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.82681e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.43287e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.40209e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57372e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.50990e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42742e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32586e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22758e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15036e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09716e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06054e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03547e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.22709e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77826e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.65989e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.00637e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.71245e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.84866e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.45343e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.42107e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57617e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51229e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.42970e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.32795e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.22940e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15188e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09838e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06151e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03623e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.22378e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77661e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66256e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.01554e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.73021e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.87037e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.47390e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.43997e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.57861e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51469e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43199e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33004e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23124e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15341e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.09962e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06249e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03699e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.22045e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77491e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66512e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.02456e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.74779e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.89193e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.49425e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.45879e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58106e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51708e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43428e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33214e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23308e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15494e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10086e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06348e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03777e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.21711e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77317e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66759e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.03342e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.76518e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.91335e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.51450e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.47752e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58351e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.51949e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43658e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33424e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23493e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15649e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10210e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06448e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03855e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.21375e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.77139e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.66996e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.04212e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.78239e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.93463e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.53464e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.49616e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58597e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52189e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.43888e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33635e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23678e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15804e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10336e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06548e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.03935e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.21037e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76955e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67224e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.05067e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.79942e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.95576e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.55467e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.51471e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.58843e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52430e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44118e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.33846e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.23864e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.15960e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10462e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06650e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04015e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.20697e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76768e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67441e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.05907e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.81627e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.97674e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.57459e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.53318e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59089e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52671e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44349e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34058e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24050e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16116e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10589e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06752e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04096e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.20355e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76576e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67649e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.06731e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.83293e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 4.99758e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.59440e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.55156e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59336e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.52913e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44580e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34270e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24237e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16273e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10717e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06855e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04178e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.20012e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76380e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.67847e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.07540e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.84942e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.01828e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.61410e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.56984e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59583e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53155e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.44811e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34483e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24425e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16431e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10846e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.06959e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04261e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.19668e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.76179e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68036e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.08334e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.86573e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.03883e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.63369e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.58804e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.59830e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53398e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45043e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34696e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24613e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16590e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.10975e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07064e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04345e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.19321e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75974e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68215e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.09113e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.88185e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.05923e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.65316e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.60614e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60077e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53640e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45276e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.34910e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24802e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16749e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11105e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07170e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04429e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.18973e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75765e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68385e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.09877e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.89780e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.07948e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.67252e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.62414e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60325e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.53883e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45509e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35124e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.24992e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.16909e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11236e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07276e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04515e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.18624e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75552e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68546e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.10626e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.91357e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.09959e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.69177e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.64205e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60574e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54127e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45742e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35338e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25182e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17070e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11368e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07383e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04601e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.18272e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75334e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68697e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.11361e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.92916e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.11955e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.71090e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.65987e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.60822e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54371e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.45975e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35553e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25372e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17231e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11501e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07491e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04688e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.17920e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.75113e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68840e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.12081e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.94457e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.13937e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.72992e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.67759e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61071e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54615e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46209e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35769e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25563e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17393e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11634e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07600e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04776e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.17565e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74887e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.68973e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.12787e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.95981e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.15904e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.74882e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.69521e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61320e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.54859e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46444e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.35985e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25755e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17556e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11768e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07710e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04865e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.17210e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74658e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69097e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.13478e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.97487e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.17856e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.76760e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.71274e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61570e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55104e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46679e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36202e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.25948e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17719e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.11903e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07820e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.04955e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.16852e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74424e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69212e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.14155e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 6.98975e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.19793e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.78626e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.73016e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.61820e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55349e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.46914e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36419e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26141e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.17884e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12038e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.07932e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05046e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.16494e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.74186e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69319e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.14818e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.00446e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.21716e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.80481e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.74749e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.62070e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55595e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.47149e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36636e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26334e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.18048e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12175e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.08044e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05137e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.16134e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73945e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69417e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.15467e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.01900e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.23624e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.82324e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.76471e+00 [%] between bin 7 and 8 ParallelTTracker {0}[2]> 21:49:15 Step 199 at 3.012 [mm], t= 28.310 [ps], E=144.351 [keV] Ippl{0}[2]> Bin 0 gamma = 1.62320e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.55841e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.47385e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.36854e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26528e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.18214e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12312e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.08157e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05229e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.15772e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73700e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69506e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.16101e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.03336e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.25517e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.84155e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.78183e+00 [%] between bin 7 and 8 Ippl{0}[2]> Bin 0 gamma = 1.62571e+00; NpInBin= 9 Ippl{0}[2]> Bin 1 gamma = 1.56087e+00; NpInBin= 274 Ippl{0}[2]> Bin 2 gamma = 1.47622e+00; NpInBin= 1400 Ippl{0}[2]> Bin 3 gamma = 1.37073e+00; NpInBin= 2272 Ippl{0}[2]> Bin 4 gamma = 1.26723e+00; NpInBin= 2173 Ippl{0}[2]> Bin 5 gamma = 1.18380e+00; NpInBin= 2112 Ippl{0}[2]> Bin 6 gamma = 1.12450e+00; NpInBin= 1475 Ippl{0}[2]> Bin 7 gamma = 1.08271e+00; NpInBin= 270 Ippl{0}[2]> Bin 8 gamma = 1.05323e+00; NpInBin= 15 Ippl{0}[2]> d(gamma)= 4.15409e+00 [%] between bin 0 and 1 Ippl{0}[2]> d(gamma)= 5.73451e+00 [%] between bin 1 and 2 Ippl{0}[2]> d(gamma)= 7.69586e+00 [%] between bin 2 and 3 Ippl{0}[2]> d(gamma)= 8.16722e+00 [%] between bin 3 and 4 Ippl{0}[2]> d(gamma)= 7.04755e+00 [%] between bin 4 and 5 Ippl{0}[2]> d(gamma)= 5.27395e+00 [%] between bin 5 and 6 Ippl{0}[2]> d(gamma)= 3.85975e+00 [%] between bin 6 and 7 Ippl{0}[2]> d(gamma)= 2.79885e+00 [%] between bin 7 and 8 ParallelTTracker {0}[2]> 21:49:15 Step 299 at 5.120 [mm], t= 38.310 [ps], E=254.872 [keV] ParallelTTracker {0}[2]> 21:49:16 Step 399 at 7.506 [mm], t= 48.310 [ps], E=386.356 [keV] ParallelTTracker {0}[2]> 21:49:17 Step 499 at 10.070 [mm], t= 58.310 [ps], E=532.246 [keV] ParallelTTracker {0}[2]> 21:49:17 Step 599 at 12.749 [mm], t= 68.310 [ps], E=687.611 [keV] ParallelTTracker {0}[2]> 21:49:18 Step 699 at 15.505 [mm], t= 78.310 [ps], E=848.726 [keV] ParallelTTracker {0}[2]> 21:49:18 Step 799 at 18.314 [mm], t= 88.310 [ps], E=1.013 [MeV] ParallelTTracker {0}[2]> 21:49:19 Step 899 at 21.161 [mm], t= 98.310 [ps], E=1.177 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:20 Step 999 at 24.034 [mm], t= 108.310 [ps], E=1.339 [MeV] ParallelTTracker {0}[2]> 21:49:20 Step 1099 at 26.927 [mm], t= 118.310 [ps], E=1.497 [MeV] ParallelTTracker {0}[2]> 21:49:21 Step 1199 at 29.836 [mm], t= 128.310 [ps], E=1.650 [MeV] ParallelTTracker {0}[2]> 21:49:21 Step 1299 at 32.756 [mm], t= 138.310 [ps], E=1.795 [MeV] ParallelTTracker {0}[2]> 21:49:22 Step 1399 at 35.685 [mm], t= 148.310 [ps], E=1.930 [MeV] ParallelTTracker {0}[2]> 21:49:22 Step 1499 at 38.621 [mm], t= 158.310 [ps], E=2.055 [MeV] ParallelTTracker {0}[2]> 21:49:23 Step 1599 at 41.562 [mm], t= 168.310 [ps], E=2.167 [MeV] ParallelTTracker {0}[2]> 21:49:23 Step 1699 at 44.508 [mm], t= 178.310 [ps], E=2.266 [MeV] ParallelTTracker {0}[2]> 21:49:24 Step 1799 at 47.457 [mm], t= 188.310 [ps], E=2.349 [MeV] ParallelTTracker {0}[2]> 21:49:24 Step 1899 at 50.408 [mm], t= 198.310 [ps], E=2.418 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:25 Step 1999 at 53.362 [mm], t= 208.310 [ps], E=2.471 [MeV] ParallelTTracker {0}[2]> 21:49:25 Step 2099 at 56.316 [mm], t= 218.310 [ps], E=2.508 [MeV] ParallelTTracker {0}[2]> 21:49:26 Step 2199 at 59.272 [mm], t= 228.310 [ps], E=2.533 [MeV] ParallelTTracker {0}[2]> 21:49:26 Step 2299 at 62.228 [mm], t= 238.310 [ps], E=2.545 [MeV] ParallelTTracker {0}[2]> 21:49:27 Step 2399 at 65.184 [mm], t= 248.310 [ps], E=2.549 [MeV] ParallelTTracker {0}[2]> 21:49:27 Step 2499 at 68.140 [mm], t= 258.310 [ps], E=2.548 [MeV] ParallelTTracker {0}[2]> 21:49:28 Step 2599 at 71.096 [mm], t= 268.310 [ps], E=2.545 [MeV] ParallelTTracker {0}[2]> 21:49:28 Step 2699 at 74.052 [mm], t= 278.310 [ps], E=2.543 [MeV] ParallelTTracker {0}[2]> 21:49:29 Step 2799 at 77.008 [mm], t= 288.310 [ps], E=2.547 [MeV] ParallelTTracker {0}[2]> 21:49:29 Step 2899 at 79.964 [mm], t= 298.310 [ps], E=2.560 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:30 Step 2999 at 82.921 [mm], t= 308.310 [ps], E=2.583 [MeV] ParallelTTracker {0}[2]> 21:49:30 Step 3099 at 85.879 [mm], t= 318.310 [ps], E=2.618 [MeV] ParallelTTracker {0}[2]> 21:49:31 Step 3199 at 88.837 [mm], t= 328.310 [ps], E=2.667 [MeV] ParallelTTracker {0}[2]> 21:49:31 Step 3299 at 91.797 [mm], t= 338.310 [ps], E=2.730 [MeV] ParallelTTracker {0}[2]> 21:49:32 Step 3399 at 94.759 [mm], t= 348.310 [ps], E=2.808 [MeV] ParallelTTracker {0}[2]> 21:49:32 Step 3499 at 97.722 [mm], t= 358.310 [ps], E=2.899 [MeV] ParallelTTracker {0}[2]> 21:49:33 Step 3599 at 100.688 [mm], t= 368.310 [ps], E=3.004 [MeV] ParallelTTracker {0}[2]> 21:49:33 Step 3699 at 103.655 [mm], t= 378.310 [ps], E=3.121 [MeV] ParallelTTracker {0}[2]> 21:49:34 Step 3799 at 106.624 [mm], t= 388.310 [ps], E=3.250 [MeV] ParallelTTracker {0}[2]> 21:49:35 Step 3899 at 109.596 [mm], t= 398.310 [ps], E=3.390 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:35 Step 3999 at 112.569 [mm], t= 408.310 [ps], E=3.540 [MeV] ParallelTTracker {0}[2]> 21:49:36 Step 4099 at 115.544 [mm], t= 418.310 [ps], E=3.698 [MeV] ParallelTTracker {0}[2]> 21:49:36 Step 4199 at 118.521 [mm], t= 428.310 [ps], E=3.863 [MeV] ParallelTTracker {0}[2]> 21:49:37 Step 4299 at 121.499 [mm], t= 438.310 [ps], E=4.033 [MeV] ParallelTTracker {0}[2]> 21:49:37 Step 4399 at 124.479 [mm], t= 448.310 [ps], E=4.207 [MeV] ParallelTTracker {0}[2]> 21:49:38 Step 4499 at 127.460 [mm], t= 458.310 [ps], E=4.383 [MeV] ParallelTTracker {0}[2]> 21:49:38 Step 4599 at 130.442 [mm], t= 468.310 [ps], E=4.561 [MeV] ParallelTTracker {0}[2]> 21:49:39 Step 4699 at 133.425 [mm], t= 478.310 [ps], E=4.737 [MeV] ParallelTTracker {0}[2]> 21:49:39 Step 4799 at 136.410 [mm], t= 488.310 [ps], E=4.911 [MeV] ParallelTTracker {0}[2]> 21:49:40 Step 4899 at 139.395 [mm], t= 498.310 [ps], E=5.081 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:40 Step 4999 at 142.381 [mm], t= 508.310 [ps], E=5.244 [MeV] ParallelTTracker {0}[2]> 21:49:41 Step 5099 at 145.367 [mm], t= 518.310 [ps], E=5.400 [MeV] ParallelTTracker {0}[2]> 21:49:41 Step 5199 at 148.354 [mm], t= 528.310 [ps], E=5.547 [MeV] ParallelTTracker {0}[2]> 21:49:42 Step 5299 at 151.342 [mm], t= 538.310 [ps], E=5.682 [MeV] ParallelTTracker {0}[2]> 21:49:42 Step 5399 at 154.330 [mm], t= 548.310 [ps], E=5.804 [MeV] ParallelTTracker {0}[2]> 21:49:43 Step 5499 at 157.318 [mm], t= 558.310 [ps], E=5.913 [MeV] ParallelTTracker {0}[2]> 21:49:43 Step 5599 at 160.307 [mm], t= 568.310 [ps], E=6.007 [MeV] ParallelTTracker {0}[2]> 21:49:44 Step 5699 at 163.295 [mm], t= 578.310 [ps], E=6.086 [MeV] ParallelTTracker {0}[2]> 21:49:44 Step 5799 at 166.284 [mm], t= 588.310 [ps], E=6.149 [MeV] ParallelTTracker {0}[2]> 21:49:45 Step 5899 at 169.274 [mm], t= 598.310 [ps], E=6.199 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:45 Step 5999 at 172.263 [mm], t= 608.310 [ps], E=6.235 [MeV] ParallelTTracker {0}[2]> 21:49:46 Step 6099 at 175.252 [mm], t= 618.310 [ps], E=6.261 [MeV] ParallelTTracker {0}[2]> 21:49:46 Step 6199 at 178.242 [mm], t= 628.310 [ps], E=6.278 [MeV] ParallelTTracker {0}[2]> 21:49:47 Step 6299 at 181.231 [mm], t= 638.310 [ps], E=6.288 [MeV] ParallelTTracker {0}[2]> 21:49:47 Step 6399 at 184.221 [mm], t= 648.310 [ps], E=6.293 [MeV] ParallelTTracker {0}[2]> 21:49:48 Step 6499 at 187.210 [mm], t= 658.310 [ps], E=6.295 [MeV] ParallelTTracker {0}[2]> 21:49:48 Step 6599 at 190.200 [mm], t= 668.310 [ps], E=6.295 [MeV] ParallelTTracker {0}[2]> 21:49:49 Step 6699 at 193.189 [mm], t= 678.310 [ps], E=6.293 [MeV] ParallelTTracker {0}[2]> 21:49:49 Step 6799 at 196.179 [mm], t= 688.310 [ps], E=6.291 [MeV] ParallelTTracker {0}[2]> 21:49:50 Step 6899 at 199.168 [mm], t= 698.310 [ps], E=6.289 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:50 Step 6999 at 202.158 [mm], t= 708.310 [ps], E=6.286 [MeV] ParallelTTracker {0}[2]> 21:49:51 Step 7099 at 205.147 [mm], t= 718.310 [ps], E=6.284 [MeV] ParallelTTracker {0}[2]> 21:49:51 Step 7199 at 208.137 [mm], t= 728.310 [ps], E=6.282 [MeV] ParallelTTracker {0}[2]> 21:49:52 Step 7299 at 211.126 [mm], t= 738.310 [ps], E=6.280 [MeV] ParallelTTracker {0}[2]> 21:49:52 Step 7399 at 214.115 [mm], t= 748.310 [ps], E=6.279 [MeV] ParallelTTracker {0}[2]> 21:49:53 Step 7499 at 217.105 [mm], t= 758.310 [ps], E=6.277 [MeV] ParallelTTracker {0}[2]> 21:49:53 Step 7599 at 220.094 [mm], t= 768.310 [ps], E=6.276 [MeV] ParallelTTracker {0}[2]> 21:49:54 Step 7699 at 223.084 [mm], t= 778.310 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 21:49:54 Step 7799 at 226.073 [mm], t= 788.310 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 21:49:55 Step 7899 at 229.063 [mm], t= 798.310 [ps], E=6.274 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:49:55 Step 7999 at 232.052 [mm], t= 808.310 [ps], E=6.274 [MeV] ParallelTTracker {0}[2]> 21:49:56 Step 8099 at 235.042 [mm], t= 818.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:49:56 Step 8199 at 238.031 [mm], t= 828.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:49:57 Step 8299 at 241.020 [mm], t= 838.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:49:57 Step 8399 at 244.010 [mm], t= 848.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:49:58 Step 8499 at 246.999 [mm], t= 858.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:49:58 Step 8599 at 249.989 [mm], t= 868.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:49:59 Step 8699 at 252.978 [mm], t= 878.310 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:49:59 Step 8799 at 255.968 [mm], t= 888.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:00 Step 8899 at 258.957 [mm], t= 898.310 [ps], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:50:01 Step 8999 at 261.946 [mm], t= 908.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:01 Step 9099 at 264.936 [mm], t= 918.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:02 Step 9199 at 267.925 [mm], t= 928.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:02 Step 9299 at 270.915 [mm], t= 938.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:03 Step 9399 at 273.904 [mm], t= 948.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:03 Step 9499 at 276.894 [mm], t= 958.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:04 Step 9599 at 279.883 [mm], t= 968.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:04 Step 9699 at 282.872 [mm], t= 978.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:05 Step 9799 at 285.862 [mm], t= 988.310 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:05 Step 9899 at 288.851 [mm], t= 998.310 [ps], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:50:06 Step 9999 at 291.841 [mm], t= 1.008 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:06 Step 10099 at 294.830 [mm], t= 1.018 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:07 Step 10199 at 297.820 [mm], t= 1.028 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:07 Step 10299 at 300.809 [mm], t= 1.038 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:08 Step 10399 at 303.799 [mm], t= 1.048 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:08 Step 10499 at 306.788 [mm], t= 1.058 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:08 Step 10599 at 309.777 [mm], t= 1.068 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:09 Step 10699 at 312.767 [mm], t= 1.078 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:09 Step 10799 at 315.756 [mm], t= 1.088 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:10 Step 10899 at 318.746 [mm], t= 1.098 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:50:10 Step 10999 at 321.735 [mm], t= 1.108 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:11 Step 11099 at 324.725 [mm], t= 1.118 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:11 Step 11199 at 327.714 [mm], t= 1.128 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:12 Step 11299 at 330.703 [mm], t= 1.138 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:12 Step 11399 at 333.693 [mm], t= 1.148 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:13 Step 11499 at 336.682 [mm], t= 1.158 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:13 Step 11599 at 339.672 [mm], t= 1.168 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:13 Step 11699 at 342.661 [mm], t= 1.178 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:14 Step 11799 at 345.651 [mm], t= 1.188 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:14 Step 11899 at 348.640 [mm], t= 1.198 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:50:15 Step 11999 at 351.629 [mm], t= 1.208 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:15 Step 12099 at 354.619 [mm], t= 1.218 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:16 Step 12199 at 357.608 [mm], t= 1.228 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:16 Step 12299 at 360.598 [mm], t= 1.238 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:17 Step 12399 at 363.587 [mm], t= 1.248 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:17 Step 12499 at 366.577 [mm], t= 1.258 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:18 Step 12599 at 369.566 [mm], t= 1.268 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:18 Step 12699 at 372.555 [mm], t= 1.278 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:19 Step 12799 at 375.545 [mm], t= 1.288 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:19 Step 12899 at 378.534 [mm], t= 1.298 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:50:19 Step 12999 at 381.524 [mm], t= 1.308 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:20 Step 13099 at 384.513 [mm], t= 1.318 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:20 Step 13199 at 387.503 [mm], t= 1.328 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:21 Step 13299 at 390.492 [mm], t= 1.338 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:21 Step 13399 at 393.481 [mm], t= 1.348 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:22 Step 13499 at 396.471 [mm], t= 1.358 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:22 Step 13599 at 399.460 [mm], t= 1.368 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:23 Step 13699 at 473.539 [mm], t= 1.616 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:23 Step 13799 at 563.221 [mm], t= 1.916 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:24 Step 13899 at 652.904 [mm], t= 2.216 [ns], E=6.272 [MeV] ParallelTTracker {0}> 21:50:24 Step 13999 at 742.587 [mm], t= 2.516 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:50:24 Step 14099 at 832.270 [mm], t= 2.816 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:25 Step 14199 at 921.953 [mm], t= 3.116 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:25 Step 14299 at 1.012 [m], t= 3.416 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:26 Step 14399 at 1.101 [m], t= 3.716 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:26 Step 14499 at 1.191 [m], t= 4.016 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:26 Step 14599 at 1.281 [m], t= 4.316 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:27 Step 14699 at 1.370 [m], t= 4.616 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:27 Step 14799 at 1.460 [m], t= 4.916 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:28 Step 14899 at 1.550 [m], t= 5.216 [ns], E=6.271 [MeV] ParallelTTracker {0}> 21:50:28 Step 14999 at 1.639 [m], t= 5.516 [ns], E=6.271 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:50:28 Step 15099 at 1.729 [m], t= 5.816 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:29 Step 15199 at 1.819 [m], t= 6.116 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:29 Step 15299 at 1.908 [m], t= 6.416 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:30 Step 15399 at 1.998 [m], t= 6.716 [ns], E=6.271 [MeV] OPAL {0}> OPAL {0}> * ************** B U N C H ********************************************************* OPAL {0}> * NP = 10000 OPAL {0}> * Qtot = 1.000 [nC] Qi = 100.000 [fC] OPAL {0}> * Ekin = 6.271 [MeV] dEkin = 36.698 [keV] OPAL {0}> * rmax = ( 1.69435 , 1.80568 , 4.46025 ) [mm] OPAL {0}> * rmin = ( -1.90011 , -1.61421 , -5.36934 ) [mm] OPAL {0}> * rms beam size = ( 0.48583 , 0.47131 , 2.03534 ) [mm] OPAL {0}> * rms momenta = ( 7.29238e-03 , 7.27407e-03 , 7.20229e-02 ) [beta gamma] OPAL {0}> * mean position = ( 1.29462 , -4.98384 , -479.73943 ) [um] OPAL {0}> * mean momenta = ( 1.66316e-05 , -4.51727e-05 , 1.32337e+01 ) [beta gamma] OPAL {0}> * rms emittance = ( 2.20722e-07 , 2.07173e-07 , 3.87465e-06 ) (not normalized) OPAL {0}> * rms correlation = ( -5.65914e-01 , -6.00383e-01 , 9.36829e-01 ) OPAL {0}> * hr = ( 244.30141 , 232.42569 , 668.41035 ) [um] OPAL {0}> * dh = 1.00000e+00 [%] OPAL {0}> * t = 6.722 [ns] dT = 3.000 [ps] OPAL {0}> * spos = 2.000 [m] OPAL {0}> * ********************************************************************************** OPAL {0}> OPAL {0}[2]> * Wrote beam phase space. ParallelTTracker {0}[2]> Dump phase space of last step OPAL{0}> OPAL{0}> * Done executing ParallelTTracker at 21:50:30 OPAL{0}> OPAL{0}> * End of input stream 'AWAGun-1.in' Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 83.7538, CPU tot = 83.95 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.0231806, CPU max = 0.04 Timings{0}> Wall avg = 0.0230491, CPU avg = 0.0175 Timings{0}> Wall min = 0.0226782, CPU min = 0 Timings{0}> Timings{0}> Boundingbox......... Wall max = 1.97901, CPU max = 2.05 Timings{0}> Wall avg = 1.94617, CPU avg = 1.8675 Timings{0}> Wall min = 1.92925, CPU min = 1.72 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0.293659, CPU max = 0.31 Timings{0}> Wall avg = 0.285468, CPU avg = 0.25 Timings{0}> Wall min = 0.274165, CPU min = 0.2 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 1.25819, CPU max = 1.41 Timings{0}> Wall avg = 1.25638, CPU avg = 1.24 Timings{0}> Wall min = 1.25234, CPU min = 1.06 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 4.23695, CPU max = 4.38 Timings{0}> Wall avg = 4.21346, CPU avg = 3.98 Timings{0}> Wall min = 4.18855, CPU min = 3.64 Timings{0}> Timings{0}> ComputePotential.... Wall max = 29.3053, CPU max = 30.32 Timings{0}> Wall avg = 29.2903, CPU avg = 29.5975 Timings{0}> Wall min = 29.2805, CPU min = 28.68 Timings{0}> Timings{0}> Create Distr........ Wall max = 0.00577735, CPU max = 0.03 Timings{0}> Wall avg = 0.00529916, CPU avg = 0.0175 Timings{0}> Wall min = 0.0051211, CPU min = 0.01 Timings{0}> Timings{0}> External field eval. Wall max = 12.0278, CPU max = 12 Timings{0}> Wall avg = 11.2752, CPU avg = 11.16 Timings{0}> Wall min = 9.53486, CPU min = 9.1 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> SelfField total..... Wall max = 51.2052, CPU max = 52.42 Timings{0}> Wall avg = 50.8836, CPU avg = 51.4975 Timings{0}> Wall min = 50.254, CPU min = 50.56 Timings{0}> Timings{0}> SF: GreensFTotal.... Wall max = 20.3488, CPU max = 20.9 Timings{0}> Wall avg = 20.1676, CPU avg = 20.33 Timings{0}> Wall min = 19.9423, CPU min = 19.91 Timings{0}> Timings{0}> TIntegration1....... Wall max = 1.81975, CPU max = 1.9 Timings{0}> Wall avg = 1.79805, CPU avg = 1.73 Timings{0}> Wall min = 1.78705, CPU min = 1.59 Timings{0}> Timings{0}> TIntegration2....... Wall max = 4.12629, CPU max = 4.42 Timings{0}> Wall avg = 4.10946, CPU avg = 4.2125 Timings{0}> Wall min = 4.08002, CPU min = 4.04 Timings{0}> Timings{0}> WakeField........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.0103199, CPU max = 0.01 Timings{0}> Wall avg = 0.010269, CPU avg = 0.005 Timings{0}> Wall min = 0.0101546, CPU min = 0 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.166413, CPU max = 0.13 Timings{0}> Wall avg = 0.0589458, CPU avg = 0.0525 Timings{0}> Wall min = 0.0221268, CPU min = 0.02 Timings{0}> Timings{0}> ----------------------------------------------------------------- -------------------------------------------------------------------------- mpirun has exited due to process rank 1 with PID 0 on node afsfs06 exiting improperly. There are three reasons this could occur: 1. this process did not call "init" before exiting, but others in the job did. This can cause a job to hang indefinitely while it waits for all processes to call "init". By rule, if one process calls "init", then ALL processes must call "init" prior to termination. 2. this process called "init", but exited without calling "finalize". By rule, all processes that call "init" MUST call "finalize" prior to exiting or it will be considered an "abnormal termination" 3. this process called "MPI_Abort" or "orte_abort" and the mca parameter orte_create_session_dirs is set to false. In this case, the run-time cannot detect that the abort call was an abnormal termination. Hence, the only error message you will receive is this one. This may have caused other processes in the application to be terminated by signals sent by mpirun (as reported here). You can avoid this message by specifying -quiet on the mpirun command line. -------------------------------------------------------------------------- Running test: ./AWAGun-TrackBack-1.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2024.2 OPAL{0}> git rev. ddba266f5d9d8db92319c2fd093aeb82a0706e2e OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 21:50:34 date: 09/12/2024 OPAL{0}> OPAL{0}> * Reading input stream 'AWAGun-TrackBack-1.in' OPAL{0}> OPAL{0}> value: {P0,OPALVERSION} = {0.00676256, 20242} OPAL{0}> OPAL{0}> OPAL{0}> value: {KSBF,SF} = {0.120154, 0.379111} OPAL{0}> OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> OPAL{0}> * ************* T R A C K R U N *************************************************** OPAL{0}> * Selected Tracking Method == PARALLEL-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Phase space dump frequency = 300000 OPAL{0}> * Statistics dump frequency = 10 w.r.t. the time step. OPAL{0}> * DT = 1e-13 [s] OPAL{0}> * MAXSTEPS = 17200 OPAL{0}> * Mass of simulation particle = 318.94 [GeV/c^2] OPAL{0}> * Charge of simulation particle = -1e-13 [C] OPAL{0}> * ********************************************************************************** Ippl{0}> * Creating new file for data: 'AWAGun-TrackBack-1.stat' Ippl{0}> * Creating new file for data: 'AWAGun-TrackBack-1.lbal' OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 10000 OPAL{0}> * OPAL{0}> * Distribution input momentum units: [Beta Gamma] OPAL{0}> * OPAL{0}> * Distribution type: FROMFILE OPAL{0}> * OPAL{0}> * Input file: 'DistAt2m.dat' OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE ELECTRON OPAL{0}> * REST MASS 5.109990e-04 [GeV] OPAL{0}> * CHARGE -e * 1.000000e+00 OPAL{0}> * MOMENTUM 6.762560e+06 [eV/c] OPAL{0}> * MOMENTUM TOLERANCE 1.000000e-02 OPAL{0}> * CURRENT 1.300000e+00 [A] OPAL{0}> * FREQUENCY 1.300000e+03 [MHz] OPAL{0}> * NPART 1.000000e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS_SC OPAL{0}> * TYPE FFT OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 1.600000e+01 OPAL{0}> * MY 1.600000e+01 OPAL{0}> * MT 1.600000e+01 OPAL{0}> * BBOXINCR 1.000000e+00 OPAL{0}> * GREENSF INTEGRATED OPAL{0}> * XDIM serial OPAL{0}> * YDIM serial OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> RFCavity {0}[2]> GUN using file DriveGun.T7 (2D dynamic); zini= 0 m; zfinal= 0.292707 m; Solenoid {0}[2]> BF using file BF_550.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Solenoid {0}[2]> M using file M_440.T7 (2D magnetostatic); zini= 0 m; zfinal= 0.5 m; Ippl{0}> Ippl{0}> * ************* G U N ************************************************************** Ippl{0}[2]> estimated phase= 2.4642024 rad = 141.1884 deg Ippl{0}[2]> Ekin= 6.2824667 MeV Ippl{0}[2]> Ippl{0}> GUN_phi = 140.4696 [deg], corresp. in Astra = 230.4696 [deg], Ippl{0}> E = 6.2831 [MeV], phi_nom = 0.0000 [deg] Ippl{0}> Ez_0 = 60.0000 [MV/m] Ippl{0}> time = 0.0000 [ns], dt = 0.1000 [ps] Ippl{0}> * ********************************************************************************** Ippl{0}> Ippl{0}> Ippl{0}> * ************* G U N ************************************************************** Ippl{0}> >>>>>> APVETO >>>>>> Ippl{0}> GUN_phi = 140.4696 [deg], corresp. in Astra = 90.0000 [deg], Ippl{0}> E = 6.2831 [MeV], phi_nom = 140.4696 [deg] Ippl{0}> Ez_0 = 60.0000 [MV/m] Ippl{0}> time = 0.0321 [ns], dt = -0.1000 [ps] Ippl{0}> <<<<<< APVETO <<<<<< Ippl{0}> * ********************************************************************************** Ippl{0}> OPAL{0}> OPAL{0}> * Size of map 4 sections OPAL{0}> * Key: (-0.050000 - 0.000000) number of overlapping elements 1 OPAL{0}> * GUNSOURCE OPAL{0}> * Key: ( 0.000000 - 0.292705) number of overlapping elements 3 OPAL{0}> * GUN OPAL{0}> * BF OPAL{0}> * M OPAL{0}> * Key: ( 0.292705 - 0.499992) number of overlapping elements 2 OPAL{0}> * BF OPAL{0}> * M OPAL{0}> * Key: ( 0.499992 - 10.500004) number of overlapping elements 1 OPAL{0}> * DR1 OPAL{0}> Ippl{0}> * Creating new file for data: 'data/AWAGun-TrackBack-1_ElementPositions.sdds' Ippl{0}> Saved phases in the h5 file: Cav-1-name -> GUN --- Cav-1-value -> 2.4517 OPAL{0}> OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 10000 OPAL{0}> * Qtot = 1000.000 [pC] Qi = 100.000 [fC] OPAL{0}> * Ekin = 6.271 [MeV] dEkin = 36.698 [keV] OPAL{0}> * rmax = ( 1.69435 , 1.80568 , 4.46025 ) [mm] OPAL{0}> * rmin = ( -1.90011 , -1.61421 , -5.36934 ) [mm] OPAL{0}> * rms beam size = ( 0.48583 , 0.47131 , 2.03534 ) [mm] OPAL{0}> * rms momenta = ( 7.29238e-03 , 7.27407e-03 , 7.20229e-02 ) [beta gamma] OPAL{0}> * mean position = ( 1.29462 , -4.98384 , -479.73938 ) [um] OPAL{0}> * mean momenta = ( 1.66316e-05 , -4.51727e-05 , 1.32337e+01 ) [beta gamma] OPAL{0}> * rms emittance = ( 2.20722e-07 , 2.07173e-07 , 3.87465e-06 ) (not normalized) OPAL{0}> * rms correlation = ( -5.65914e-01 , -6.00383e-01 , 9.36829e-01 ) OPAL{0}> * hr = ( 244.42316 , 232.55257 , 668.41212 ) [um] OPAL{0}> * dh = 1.00000e+00 [%] OPAL{0}> * t = 6.722 [ns] dT = -3.000 [ps] OPAL{0}> * spos = 2.000 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Track start at: 21:50:38, t= 6.722 [ns]; zstart at: 2.000 [m] OPAL{0}> * Executing ParallelTTracker OPAL{0}> * Initial dt = -3.000 [ps] OPAL{0}> * Max integration steps = 19000, next step = 0 OPAL{0}> ParallelTTracker {0}[2]> MINBINEMITTED 10 ParallelTTracker {0}[2]> MINSTEPFORREBIN 200 ParallelTTracker {0}[2]> REPARTFREQ 1000 ParallelTTracker {0}[2]> 21:50:38 Step 99 at 1.910 [m], t= 6.422 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:39 Step 199 at 1.821 [m], t= 6.122 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:39 Step 299 at 1.731 [m], t= 5.822 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:40 Step 399 at 1.641 [m], t= 5.522 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:40 Step 499 at 1.552 [m], t= 5.222 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:40 Step 599 at 1.462 [m], t= 4.922 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:41 Step 699 at 1.372 [m], t= 4.622 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:41 Step 799 at 1.283 [m], t= 4.322 [ns], E=6.271 [MeV] ParallelTTracker {0}[2]> 21:50:42 Step 899 at 1.193 [m], t= 4.022 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}> 21:50:42 Step 999 at 1.103 [m], t= 3.722 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:43 Step 1099 at 1.013 [m], t= 3.422 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:43 Step 1199 at 923.804 [mm], t= 3.122 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:44 Step 1299 at 834.121 [mm], t= 2.822 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:44 Step 1399 at 744.438 [mm], t= 2.522 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:44 Step 1499 at 654.755 [mm], t= 2.222 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:45 Step 1599 at 565.072 [mm], t= 1.922 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:45 Step 1699 at 475.389 [mm], t= 1.622 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:46 Step 1799 at 399.577 [mm], t= 1.369 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:46 Step 1899 at 396.588 [mm], t= 1.359 [ns], E=6.272 [MeV] ParallelTTracker {0}> 21:50:47 Step 1999 at 393.598 [mm], t= 1.349 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:50:47 Step 2099 at 390.609 [mm], t= 1.339 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:48 Step 2199 at 387.619 [mm], t= 1.329 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:48 Step 2299 at 384.630 [mm], t= 1.319 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:48 Step 2399 at 381.641 [mm], t= 1.309 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:49 Step 2499 at 378.651 [mm], t= 1.299 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:49 Step 2599 at 375.662 [mm], t= 1.289 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:50 Step 2699 at 372.672 [mm], t= 1.279 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:50 Step 2799 at 369.683 [mm], t= 1.269 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:51 Step 2899 at 366.693 [mm], t= 1.259 [ns], E=6.272 [MeV] ParallelTTracker {0}> 21:50:51 Step 2999 at 363.704 [mm], t= 1.249 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:50:52 Step 3099 at 360.715 [mm], t= 1.239 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:52 Step 3199 at 357.725 [mm], t= 1.229 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:53 Step 3299 at 354.736 [mm], t= 1.219 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:53 Step 3399 at 351.746 [mm], t= 1.209 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:53 Step 3499 at 348.757 [mm], t= 1.199 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:54 Step 3599 at 345.767 [mm], t= 1.189 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:54 Step 3699 at 342.778 [mm], t= 1.179 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:55 Step 3799 at 339.788 [mm], t= 1.169 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:55 Step 3899 at 336.799 [mm], t= 1.159 [ns], E=6.272 [MeV] ParallelTTracker {0}> 21:50:56 Step 3999 at 333.810 [mm], t= 1.149 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:50:56 Step 4099 at 330.820 [mm], t= 1.139 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:57 Step 4199 at 327.831 [mm], t= 1.129 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:57 Step 4299 at 324.841 [mm], t= 1.119 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:58 Step 4399 at 321.852 [mm], t= 1.109 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:58 Step 4499 at 318.862 [mm], t= 1.099 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:59 Step 4599 at 315.873 [mm], t= 1.089 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:59 Step 4699 at 312.884 [mm], t= 1.079 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:50:59 Step 4799 at 309.894 [mm], t= 1.069 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:00 Step 4899 at 306.905 [mm], t= 1.059 [ns], E=6.272 [MeV] ParallelTTracker {0}> 21:51:00 Step 4999 at 303.915 [mm], t= 1.049 [ns], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:01 Step 5099 at 300.926 [mm], t= 1.039 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:01 Step 5199 at 297.936 [mm], t= 1.029 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:02 Step 5299 at 294.947 [mm], t= 1.019 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:02 Step 5399 at 291.958 [mm], t= 1.009 [ns], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:03 Step 5499 at 288.968 [mm], t= 998.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:03 Step 5599 at 285.979 [mm], t= 988.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:04 Step 5699 at 282.989 [mm], t= 978.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:04 Step 5799 at 280.000 [mm], t= 968.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:05 Step 5899 at 277.010 [mm], t= 958.704 [ps], E=6.272 [MeV] ParallelTTracker {0}> 21:51:05 Step 5999 at 274.021 [mm], t= 948.704 [ps], E=6.272 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:06 Step 6099 at 271.032 [mm], t= 938.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:06 Step 6199 at 268.042 [mm], t= 928.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:07 Step 6299 at 265.053 [mm], t= 918.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:07 Step 6399 at 262.063 [mm], t= 908.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:08 Step 6499 at 259.074 [mm], t= 898.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:08 Step 6599 at 256.084 [mm], t= 888.704 [ps], E=6.272 [MeV] ParallelTTracker {0}[2]> 21:51:09 Step 6699 at 253.095 [mm], t= 878.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:51:09 Step 6799 at 250.105 [mm], t= 868.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:51:10 Step 6899 at 247.116 [mm], t= 858.704 [ps], E=6.273 [MeV] ParallelTTracker {0}> 21:51:10 Step 6999 at 244.127 [mm], t= 848.704 [ps], E=6.273 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:11 Step 7099 at 241.137 [mm], t= 838.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:51:11 Step 7199 at 238.148 [mm], t= 828.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:51:12 Step 7299 at 235.158 [mm], t= 818.704 [ps], E=6.273 [MeV] ParallelTTracker {0}[2]> 21:51:12 Step 7399 at 232.169 [mm], t= 808.704 [ps], E=6.274 [MeV] ParallelTTracker {0}[2]> 21:51:13 Step 7499 at 229.179 [mm], t= 798.704 [ps], E=6.274 [MeV] ParallelTTracker {0}[2]> 21:51:13 Step 7599 at 226.190 [mm], t= 788.704 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 21:51:14 Step 7699 at 223.201 [mm], t= 778.704 [ps], E=6.275 [MeV] ParallelTTracker {0}[2]> 21:51:14 Step 7799 at 220.211 [mm], t= 768.704 [ps], E=6.276 [MeV] ParallelTTracker {0}[2]> 21:51:15 Step 7899 at 217.222 [mm], t= 758.704 [ps], E=6.277 [MeV] ParallelTTracker {0}> 21:51:15 Step 7999 at 214.232 [mm], t= 748.704 [ps], E=6.278 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:16 Step 8099 at 211.243 [mm], t= 738.704 [ps], E=6.280 [MeV] ParallelTTracker {0}[2]> 21:51:16 Step 8199 at 208.253 [mm], t= 728.704 [ps], E=6.282 [MeV] ParallelTTracker {0}[2]> 21:51:17 Step 8299 at 205.264 [mm], t= 718.704 [ps], E=6.284 [MeV] ParallelTTracker {0}[2]> 21:51:17 Step 8399 at 202.274 [mm], t= 708.704 [ps], E=6.286 [MeV] ParallelTTracker {0}[2]> 21:51:18 Step 8499 at 199.285 [mm], t= 698.704 [ps], E=6.289 [MeV] ParallelTTracker {0}[2]> 21:51:18 Step 8599 at 196.295 [mm], t= 688.704 [ps], E=6.291 [MeV] ParallelTTracker {0}[2]> 21:51:19 Step 8699 at 193.306 [mm], t= 678.704 [ps], E=6.293 [MeV] ParallelTTracker {0}[2]> 21:51:20 Step 8799 at 190.317 [mm], t= 668.704 [ps], E=6.295 [MeV] ParallelTTracker {0}[2]> 21:51:20 Step 8899 at 187.327 [mm], t= 658.704 [ps], E=6.295 [MeV] ParallelTTracker {0}> 21:51:21 Step 8999 at 184.338 [mm], t= 648.704 [ps], E=6.294 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:21 Step 9099 at 181.348 [mm], t= 638.704 [ps], E=6.288 [MeV] ParallelTTracker {0}[2]> 21:51:22 Step 9199 at 178.359 [mm], t= 628.704 [ps], E=6.279 [MeV] ParallelTTracker {0}[2]> 21:51:22 Step 9299 at 175.369 [mm], t= 618.704 [ps], E=6.262 [MeV] ParallelTTracker {0}[2]> 21:51:23 Step 9399 at 172.380 [mm], t= 608.704 [ps], E=6.237 [MeV] ParallelTTracker {0}[2]> 21:51:23 Step 9499 at 169.390 [mm], t= 598.704 [ps], E=6.200 [MeV] ParallelTTracker {0}[2]> 21:51:24 Step 9599 at 166.401 [mm], t= 588.704 [ps], E=6.151 [MeV] ParallelTTracker {0}[2]> 21:51:24 Step 9699 at 163.412 [mm], t= 578.704 [ps], E=6.088 [MeV] ParallelTTracker {0}[2]> 21:51:25 Step 9799 at 160.423 [mm], t= 568.704 [ps], E=6.010 [MeV] ParallelTTracker {0}[2]> 21:51:25 Step 9899 at 157.435 [mm], t= 558.704 [ps], E=5.917 [MeV] ParallelTTracker {0}> 21:51:26 Step 9999 at 154.446 [mm], t= 548.704 [ps], E=5.809 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:26 Step 10099 at 151.458 [mm], t= 538.704 [ps], E=5.687 [MeV] ParallelTTracker {0}[2]> 21:51:27 Step 10199 at 148.471 [mm], t= 528.704 [ps], E=5.552 [MeV] ParallelTTracker {0}[2]> 21:51:27 Step 10299 at 145.484 [mm], t= 518.704 [ps], E=5.406 [MeV] ParallelTTracker {0}[2]> 21:51:28 Step 10399 at 142.497 [mm], t= 508.704 [ps], E=5.251 [MeV] ParallelTTracker {0}[2]> 21:51:28 Step 10499 at 139.511 [mm], t= 498.704 [ps], E=5.087 [MeV] ParallelTTracker {0}[2]> 21:51:29 Step 10599 at 136.526 [mm], t= 488.704 [ps], E=4.918 [MeV] ParallelTTracker {0}[2]> 21:51:29 Step 10699 at 133.542 [mm], t= 478.704 [ps], E=4.744 [MeV] ParallelTTracker {0}[2]> 21:51:30 Step 10799 at 130.559 [mm], t= 468.704 [ps], E=4.568 [MeV] ParallelTTracker {0}[2]> 21:51:30 Step 10899 at 127.576 [mm], t= 458.704 [ps], E=4.390 [MeV] ParallelTTracker {0}> 21:51:31 Step 10999 at 124.595 [mm], t= 448.704 [ps], E=4.214 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:31 Step 11099 at 121.616 [mm], t= 438.704 [ps], E=4.039 [MeV] ParallelTTracker {0}[2]> 21:51:32 Step 11199 at 118.637 [mm], t= 428.704 [ps], E=3.869 [MeV] ParallelTTracker {0}[2]> 21:51:32 Step 11299 at 115.660 [mm], t= 418.704 [ps], E=3.704 [MeV] ParallelTTracker {0}[2]> 21:51:33 Step 11399 at 112.685 [mm], t= 408.704 [ps], E=3.546 [MeV] ParallelTTracker {0}[2]> 21:51:33 Step 11499 at 109.712 [mm], t= 398.704 [ps], E=3.396 [MeV] ParallelTTracker {0}[2]> 21:51:34 Step 11599 at 106.740 [mm], t= 388.704 [ps], E=3.256 [MeV] ParallelTTracker {0}[2]> 21:51:34 Step 11699 at 103.771 [mm], t= 378.704 [ps], E=3.126 [MeV] ParallelTTracker {0}[2]> 21:51:35 Step 11799 at 100.803 [mm], t= 368.704 [ps], E=3.008 [MeV] ParallelTTracker {0}[2]> 21:51:35 Step 11899 at 97.838 [mm], t= 358.704 [ps], E=2.903 [MeV] ParallelTTracker {0}> 21:51:36 Step 11999 at 94.875 [mm], t= 348.704 [ps], E=2.811 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:36 Step 12099 at 91.913 [mm], t= 338.704 [ps], E=2.733 [MeV] ParallelTTracker {0}[2]> 21:51:37 Step 12199 at 88.953 [mm], t= 328.704 [ps], E=2.670 [MeV] ParallelTTracker {0}[2]> 21:51:37 Step 12299 at 85.994 [mm], t= 318.704 [ps], E=2.620 [MeV] ParallelTTracker {0}[2]> 21:51:38 Step 12399 at 83.037 [mm], t= 308.704 [ps], E=2.584 [MeV] ParallelTTracker {0}[2]> 21:51:38 Step 12499 at 80.080 [mm], t= 298.704 [ps], E=2.560 [MeV] ParallelTTracker {0}[2]> 21:51:39 Step 12599 at 77.124 [mm], t= 288.704 [ps], E=2.548 [MeV] ParallelTTracker {0}[2]> 21:51:40 Step 12699 at 74.168 [mm], t= 278.704 [ps], E=2.543 [MeV] ParallelTTracker {0}[2]> 21:51:40 Step 12799 at 71.212 [mm], t= 268.704 [ps], E=2.544 [MeV] ParallelTTracker {0}[2]> 21:51:41 Step 12899 at 68.256 [mm], t= 258.704 [ps], E=2.548 [MeV] ParallelTTracker {0}> 21:51:41 Step 12999 at 65.299 [mm], t= 248.704 [ps], E=2.549 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:42 Step 13099 at 62.343 [mm], t= 238.704 [ps], E=2.546 [MeV] ParallelTTracker {0}[2]> 21:51:42 Step 13199 at 59.387 [mm], t= 228.704 [ps], E=2.533 [MeV] ParallelTTracker {0}[2]> 21:51:43 Step 13299 at 56.432 [mm], t= 218.704 [ps], E=2.510 [MeV] ParallelTTracker {0}[2]> 21:51:43 Step 13399 at 53.477 [mm], t= 208.704 [ps], E=2.472 [MeV] ParallelTTracker {0}[2]> 21:51:44 Step 13499 at 50.524 [mm], t= 198.704 [ps], E=2.420 [MeV] ParallelTTracker {0}[2]> 21:51:44 Step 13599 at 47.572 [mm], t= 188.704 [ps], E=2.352 [MeV] ParallelTTracker {0}[2]> 21:51:45 Step 13699 at 44.623 [mm], t= 178.704 [ps], E=2.269 [MeV] ParallelTTracker {0}[2]> 21:51:45 Step 13799 at 41.677 [mm], t= 168.704 [ps], E=2.171 [MeV] ParallelTTracker {0}[2]> 21:51:46 Step 13899 at 38.736 [mm], t= 158.704 [ps], E=2.060 [MeV] ParallelTTracker {0}> 21:51:46 Step 13999 at 35.799 [mm], t= 148.704 [ps], E=1.936 [MeV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:47 Step 14099 at 32.870 [mm], t= 138.704 [ps], E=1.800 [MeV] ParallelTTracker {0}[2]> 21:51:47 Step 14199 at 29.950 [mm], t= 128.704 [ps], E=1.656 [MeV] ParallelTTracker {0}[2]> 21:51:48 Step 14299 at 27.041 [mm], t= 118.704 [ps], E=1.504 [MeV] ParallelTTracker {0}[2]> 21:51:48 Step 14399 at 24.147 [mm], t= 108.704 [ps], E=1.345 [MeV] ParallelTTracker {0}[2]> 21:51:49 Step 14499 at 21.272 [mm], t= 98.704 [ps], E=1.183 [MeV] ParallelTTracker {0}[2]> 21:51:49 Step 14599 at 18.425 [mm], t= 88.704 [ps], E=1.019 [MeV] ParallelTTracker {0}[2]> 21:51:50 Step 14699 at 15.614 [mm], t= 78.704 [ps], E=855.104 [keV] ParallelTTracker {0}[2]> 21:51:50 Step 14799 at 12.856 [mm], t= 68.704 [ps], E=693.827 [keV] ParallelTTracker {0}[2]> 21:51:51 Step 14899 at 10.173 [mm], t= 58.704 [ps], E=538.173 [keV] ParallelTTracker {0}> 21:51:51 Step 14999 at 7.604 [mm], t= 48.704 [ps], E=391.828 [keV] Ippl{0}> ***************************************************************** Ippl{0}> do repartition because of repartFreq_m Ippl{0}> ***************************************************************** Ippl{0}> ***************************************************************** Ippl{0}> do repartition done Ippl{0}> ***************************************************************** ParallelTTracker {0}[2]> 21:51:52 Step 15099 at 5.209 [mm], t= 38.704 [ps], E=259.668 [keV] ParallelTTracker {0}[2]> 21:51:52 Step 15199 at 3.088 [mm], t= 28.704 [ps], E=148.180 [keV] ParallelTTracker {0}[2]> 21:51:53 Step 15299 at 1.391 [mm], t= 18.704 [ps], E=65.177 [keV] ParallelTTracker {0}[2]> 21:51:54 Step 15399 at 311.356 [um], t= 8.704 [ps], E=17.554 [keV] OPAL {0}> OPAL {0}> * ************** B U N C H ********************************************************* OPAL {0}> * NP = 10000 OPAL {0}> * Qtot = 1.000 [nC] Qi = 100.000 [fC] OPAL {0}> * Ekin = 8.462 [keV] dEkin = 9.529 [keV] OPAL {0}> * rmax = ( 1.02243 , 1.02817 , 1.31554 ) [mm] OPAL {0}> * rmin = ( -1.03109 , -1.01718 , 0.10645 ) [mm] OPAL {0}> * rms beam size = ( 454.30916 , 450.79892 , 164.70491 ) [um] OPAL {0}> * rms momenta = ( 4.14654e-02 , 4.15995e-02 , 1.66549e-01 ) [beta gamma] OPAL {0}> * mean position = ( -1.78169 , -0.12475 , 290.30171 ) [um] OPAL {0}> * mean momenta = ( -2.68464e-06 , 1.92383e-06 , -5.05331e-02 ) [beta gamma] OPAL {0}> * rms emittance = ( 3.28020e-05 , 3.28845e-05 , 1.43986e-04 ) (not normalized) OPAL {0}> * rms correlation = ( -9.48024e-01 , -9.47266e-01 , -2.82741e-01 ) OPAL {0}> * hr = ( 137.03587 , 136.45623 , 81.37256 ) [um] OPAL {0}> * dh = 1.00000e+00 [%] OPAL {0}> * t = -95.542 [fs] dT = -100.000 [fs] OPAL {0}> * spos = 0.000 [um] OPAL {0}> * ********************************************************************************** OPAL {0}> OPAL {0}[2]> * Wrote beam phase space. ParallelTTracker {0}[2]> Dump phase space of last step OPAL{0}> OPAL{0}> * Done executing ParallelTTracker at 21:51:55 OPAL{0}> OPAL{0}> * End of input stream 'AWAGun-TrackBack-1.in' Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 81.1724, CPU tot = 81.38 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.0239422, CPU max = 0.03 Timings{0}> Wall avg = 0.023817, CPU avg = 0.0225 Timings{0}> Wall min = 0.0234758, CPU min = 0.01 Timings{0}> Timings{0}> Boundingbox......... Wall max = 2.02892, CPU max = 2.21 Timings{0}> Wall avg = 1.99505, CPU avg = 1.9475 Timings{0}> Wall min = 1.97261, CPU min = 1.76 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0.300192, CPU max = 0.4 Timings{0}> Wall avg = 0.290796, CPU avg = 0.2975 Timings{0}> Wall min = 0.279968, CPU min = 0.18 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 1.29105, CPU max = 1.45 Timings{0}> Wall avg = 1.28915, CPU avg = 1.2475 Timings{0}> Wall min = 1.28391, CPU min = 1.11 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 4.41025, CPU max = 4.57 Timings{0}> Wall avg = 4.38078, CPU avg = 4.4825 Timings{0}> Wall min = 4.36639, CPU min = 4.4 Timings{0}> Timings{0}> ComputePotential.... Wall max = 27.2708, CPU max = 28.21 Timings{0}> Wall avg = 27.2543, CPU avg = 27.125 Timings{0}> Wall min = 27.2401, CPU min = 26.53 Timings{0}> Timings{0}> Create Distr........ Wall max = 0.0516894, CPU max = 0.16 Timings{0}> Wall avg = 0.0516202, CPU avg = 0.1475 Timings{0}> Wall min = 0.0514139, CPU min = 0.14 Timings{0}> Timings{0}> External field eval. Wall max = 12.9401, CPU max = 12.76 Timings{0}> Wall avg = 11.4114, CPU avg = 11.31 Timings{0}> Wall min = 9.25286, CPU min = 10.05 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> SelfField total..... Wall max = 44.8507, CPU max = 45.82 Timings{0}> Wall avg = 44.5455, CPU avg = 44.31 Timings{0}> Wall min = 43.9572, CPU min = 43.17 Timings{0}> Timings{0}> SF: GreensFTotal.... Wall max = 16.9299, CPU max = 17.79 Timings{0}> Wall avg = 16.7783, CPU avg = 16.6525 Timings{0}> Wall min = 16.5845, CPU min = 15.88 Timings{0}> Timings{0}> TIntegration1....... Wall max = 1.85101, CPU max = 2.09 Timings{0}> Wall avg = 1.83197, CPU avg = 1.8325 Timings{0}> Wall min = 1.80962, CPU min = 1.59 Timings{0}> Timings{0}> TIntegration2....... Wall max = 4.23561, CPU max = 4.86 Timings{0}> Wall avg = 4.21654, CPU avg = 4.3075 Timings{0}> Wall min = 4.1891, CPU min = 3.96 Timings{0}> Timings{0}> WakeField........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.0107873, CPU max = 0.02 Timings{0}> Wall avg = 0.0107553, CPU avg = 0.0075 Timings{0}> Wall min = 0.0106648, CPU min = 0 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.168344, CPU max = 0.16 Timings{0}> Wall avg = 0.0593168, CPU avg = 0.0525 Timings{0}> Wall min = 0.0218435, CPU min = 0 Timings{0}> Timings{0}> ----------------------------------------------------------------- -------------------------------------------------------------------------- mpirun has exited due to process rank 0 with PID 0 on node afsfs06 exiting improperly. There are three reasons this could occur: 1. this process did not call "init" before exiting, but others in the job did. This can cause a job to hang indefinitely while it waits for all processes to call "init". By rule, if one process calls "init", then ALL processes must call "init" prior to termination. 2. this process called "init", but exited without calling "finalize". By rule, all processes that call "init" MUST call "finalize" prior to exiting or it will be considered an "abnormal termination" 3. this process called "MPI_Abort" or "orte_abort" and the mca parameter orte_create_session_dirs is set to false. In this case, the run-time cannot detect that the abort call was an abnormal termination. Hence, the only error message you will receive is this one. This may have caused other processes in the application to be terminated by signals sent by mpirun (as reported here). You can avoid this message by specifying -quiet on the mpirun command line. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-01.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2024.2 OPAL{0}> git rev. ddba266f5d9d8db92319c2fd093aeb82a0706e2e OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 21:51:59 date: 09/12/2024 OPAL{0}> OPAL{0}> * Reading input stream 'AmrRingCyclotron-01.in' OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200, OPAL{0}> COMPUTEPERCENTILES=FALSE,DUMPBEAMMATRIX=FALSE; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-01.stat' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-01.lbal' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-01.grid' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-01.mem' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-01-bunch-0000.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-01-bunch-0001.smb' OPAL{0}> OPAL{0}> Use 'GAMMA_BINNING' injection for binnning. OPAL{0}> OPAL{0}> ***-------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE --------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* T R A C K R U N *************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * DT = 1e-12 [s] OPAL{0}> * MAXSTEPS = 1080 OPAL{0}> * Mass of simulation particle = 7057 [GeV/c^2] OPAL{0}> * Charge of simulation particle = 1.205e-15 [C] OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution input momentum units: [eV/c] OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * REST MASS 0.9383 [GeV] OPAL{0}> * CHARGE +e * 1 OPAL{0}> * MOMENTUM 3.746e+08 [eV/c] OPAL{0}> * MOMENTUM TOLERANCE 0.01 OPAL{0}> * CURRENT 0.002 [A] OPAL{0}> * FREQUENCY 50.65 [MHz] OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 1 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2.13 [m] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [m] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum = 0.3992 [beta gamma] OPAL{0}> * Reference azimuthal momentum (Pt) = 0.3992 [beta gamma] OPAL{0}> * Reference radial momentum (Pr) = -0.000174 [beta gamma] OPAL{0}> * Reference axial momentum (Pz) = 0 [beta gamma] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = 's03av.nar' OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * RF frequency = 50.65 [MHz] OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 35 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 125 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * RF Field map file = 'Cav3.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 9.547e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 170 [deg] OPAL{0}> * Cavity gap width = 0.25 [m] OPAL{0}> * Cavity Shift distance = 0.452 [m] OPAL{0}> * Initial RF phase (t=0) = 149.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 215 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 305 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 1.1846e-07 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40581 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10536 Deg, Z = -0.074456 mm OPAL{0}> * Local Azimuth = -0.36032 Deg, Local Elevation = -0.003497 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269801 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.40084 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402464 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> minimal beta*gamma = 0.404003 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> minimal beta*gamma = 0.405725 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 2.3692e-07 s, Live Particles: 65536 OPAL{0}> * E = 74.315 MeV, beta * gamma = 0.4091 OPAL{0}> * Bunch position: R = 2169.2 mm, Theta = -0.0143 Deg, Z = -0.069939 mm OPAL{0}> * Local Azimuth = -0.19458 Deg, Local Elevation = -0.0040634 Deg Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> minimal beta*gamma = 0.407291 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0811 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08176 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> minimal beta*gamma = 0.408773 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08166 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> minimal beta*gamma = 0.410547 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08231 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}> * New finest level: 1 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08296 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 3.5538e-07 s, Live Particles: 65536 OPAL{0}> * E = 75.486 MeV, beta * gamma = 0.41569 OPAL{0}> * Bunch position: R = 2200.3 mm, Theta = 0.17602 Deg, Z = -0.1026 mm OPAL{0}> * Local Azimuth = 0.1795 Deg, Local Elevation = -0.0045719 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.842 [MeV] dEkin = 1.189 [MeV] OPAL{0}> * rmax = ( 2.22961 , 0.02332 , 0.00333 ) [m] OPAL{0}> * rmin = ( 2.16988 , -0.00524 , -0.00328 ) [m] OPAL{0}> * rms beam size = ( 16.99409 , 4.77551 , 1.00228 ) [mm] OPAL{0}> * rms momenta = ( 1.79710e-03 , 3.29501e-03 , 2.49964e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20027 , 0.00676 , -0.00010 ) [m] OPAL{0}> * mean momenta = ( -1.30231e-03 , 4.15685e-01 , -3.31698e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.65211e-05 , 2.38231e-05 , 5.49310e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.38834e-01 , 7.77108e-01 , -4.11404e-01 ) OPAL{0}> * hr = ( 2.27398 , 1.70549 , 1.70549 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.188 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron RINGCYCLOTRON OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream 'AmrRingCyclotron-01.in' Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 59.8832, CPU tot = 60.06 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 0.949744, CPU max = 0.93 Timings{0}> Wall avg = 0.848727, CPU avg = 0.8325 Timings{0}> Wall min = 0.770766, CPU min = 0.69 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.462662, CPU max = 0.47 Timings{0}> Wall avg = 0.451153, CPU avg = 0.4225 Timings{0}> Wall min = 0.429408, CPU min = 0.37 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 10.9339, CPU max = 10.99 Timings{0}> Wall avg = 10.9224, CPU avg = 10.93 Timings{0}> Wall min = 10.9113, CPU min = 10.89 Timings{0}> Timings{0}> AMR solve........... Wall max = 11.3792, CPU max = 11.57 Timings{0}> Wall avg = 11.3695, CPU avg = 11.39 Timings{0}> Wall min = 11.3628, CPU min = 11.27 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 2.81632, CPU max = 2.8 Timings{0}> Wall avg = 2.6229, CPU avg = 2.6825 Timings{0}> Wall min = 2.3202, CPU min = 2.44 Timings{0}> Timings{0}> AMR update particle. Wall max = 14.7153, CPU max = 14.74 Timings{0}> Wall avg = 14.5415, CPU avg = 14.59 Timings{0}> Wall min = 14.2811, CPU min = 14.29 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.459918, CPU max = 0.5 Timings{0}> Wall avg = 0.457123, CPU avg = 0.4425 Timings{0}> Wall min = 0.453781, CPU min = 0.41 Timings{0}> Timings{0}> Boundingbox......... Wall max = 3.18211, CPU max = 3.16 Timings{0}> Wall avg = 3.10241, CPU avg = 3.0825 Timings{0}> Wall min = 2.96548, CPU min = 2.9 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0133259, CPU max = 0.02 Timings{0}> Wall avg = 0.0130552, CPU avg = 0.0125 Timings{0}> Wall min = 0.0122618, CPU min = 0 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 10.5739, CPU max = 10.52 Timings{0}> Wall avg = 8.47758, CPU avg = 8.495 Timings{0}> Wall min = 6.77485, CPU min = 6.77 Timings{0}> Timings{0}> Dump................ Wall max = 2.28624, CPU max = 2.56 Timings{0}> Wall avg = 2.13185, CPU avg = 2.1925 Timings{0}> Wall min = 2.04485, CPU min = 2 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 1.42616, CPU max = 1.41 Timings{0}> Wall avg = 1.31006, CPU avg = 1.32 Timings{0}> Wall min = 1.17625, CPU min = 1.2 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 19.4673, CPU max = 19.3 Timings{0}> Wall avg = 17.8516, CPU avg = 17.77 Timings{0}> Wall min = 15.8617, CPU min = 15.94 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.018477, CPU max = 0.03 Timings{0}> Wall avg = 0.0172323, CPU avg = 0.0175 Timings{0}> Wall min = 0.0155354, CPU min = 0 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00145016, CPU max = 0.01 Timings{0}> Wall avg = 0.00141338, CPU avg = 0.0025 Timings{0}> Wall min = 0.00137863, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.0702367, CPU max = 0.07 Timings{0}> Wall avg = 0.068918, CPU avg = 0.06 Timings{0}> Wall min = 0.0678756, CPU min = 0.05 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.0210926, CPU max = 0.02 Timings{0}> Wall avg = 0.0207662, CPU avg = 0.0175 Timings{0}> Wall min = 0.0198022, CPU min = 0.01 Timings{0}> Timings{0}> SelfField total..... Wall max = 25.9748, CPU max = 26.03 Timings{0}> Wall avg = 25.9336, CPU avg = 25.895 Timings{0}> Wall min = 25.8808, CPU min = 25.8 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.0776996, CPU max = 0.07 Timings{0}> Wall avg = 0.0768759, CPU avg = 0.05 Timings{0}> Wall min = 0.0759012, CPU min = 0.02 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.933731, CPU max = 1.09 Timings{0}> Wall avg = 0.856371, CPU avg = 0.9175 Timings{0}> Wall min = 0.81789, CPU min = 0.72 Timings{0}> Timings{0}> ----------------------------------------------------------------- -------------------------------------------------------------------------- mpirun has exited due to process rank 1 with PID 0 on node afsfs06 exiting improperly. There are three reasons this could occur: 1. this process did not call "init" before exiting, but others in the job did. This can cause a job to hang indefinitely while it waits for all processes to call "init". By rule, if one process calls "init", then ALL processes must call "init" prior to termination. 2. this process called "init", but exited without calling "finalize". By rule, all processes that call "init" MUST call "finalize" prior to exiting or it will be considered an "abnormal termination" 3. this process called "MPI_Abort" or "orte_abort" and the mca parameter orte_create_session_dirs is set to false. In this case, the run-time cannot detect that the abort call was an abnormal termination. Hence, the only error message you will receive is this one. This may have caused other processes in the application to be terminated by signals sent by mpirun (as reported here). You can avoid this message by specifying -quiet on the mpirun command line. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-02.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2024.2 OPAL{0}> git rev. ddba266f5d9d8db92319c2fd093aeb82a0706e2e OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 21:53:04 date: 09/12/2024 OPAL{0}> OPAL{0}> * Reading input stream 'AmrRingCyclotron-02.in' OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=2,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=10,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200, OPAL{0}> COMPUTEPERCENTILES=FALSE,DUMPBEAMMATRIX=FALSE; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-02.stat' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-02.lbal' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-02.grid' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-02.mem' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-02-bunch-0000.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-02-bunch-0001.smb' OPAL{0}> OPAL{0}> Use 'GAMMA_BINNING' injection for binnning. OPAL{0}> OPAL{0}> ***-------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE --------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* T R A C K R U N *************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * DT = 1e-12 [s] OPAL{0}> * MAXSTEPS = 1080 OPAL{0}> * Mass of simulation particle = 7057 [GeV/c^2] OPAL{0}> * Charge of simulation particle = 1.205e-15 [C] OPAL{0}> * Number of neighbour bunches = 2 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution input momentum units: [eV/c] OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * REST MASS 0.9383 [GeV] OPAL{0}> * CHARGE +e * 1 OPAL{0}> * MOMENTUM 3.746e+08 [eV/c] OPAL{0}> * MOMENTUM TOLERANCE 0.01 OPAL{0}> * CURRENT 0.002 [A] OPAL{0}> * FREQUENCY 50.65 [MHz] OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2.13 [m] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [m] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum = 0.3992 [beta gamma] OPAL{0}> * Reference azimuthal momentum (Pt) = 0.3992 [beta gamma] OPAL{0}> * Reference radial momentum (Pr) = -0.000174 [beta gamma] OPAL{0}> * Reference axial momentum (Pz) = 0 [beta gamma] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = 's03av.nar' OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * RF frequency = 50.65 [MHz] OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 35 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 125 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * RF Field map file = 'Cav3.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 9.547e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 170 [deg] OPAL{0}> * Cavity gap width = 0.25 [m] OPAL{0}> * Cavity Shift distance = 0.452 [m] OPAL{0}> * Initial RF phase (t=0) = 149.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 215 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 305 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 2 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 1.1846e-07 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40581 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10536 Deg, Z = -0.074456 mm OPAL{0}> * Local Azimuth = -0.36032 Deg, Local Elevation = -0.003497 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269801 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.400838 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402455 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> minimal beta*gamma = 0.404 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> minimal beta*gamma = 0.405726 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 2.3692e-07 s, Live Particles: 65536 OPAL{0}> * E = 74.315 MeV, beta * gamma = 0.40912 OPAL{0}> * Bunch position: R = 2169.2 mm, Theta = -0.014932 Deg, Z = -0.050571 mm OPAL{0}> * Local Azimuth = -0.19747 Deg, Local Elevation = -0.0034407 Deg Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> minimal beta*gamma = 0.407265 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> minimal beta*gamma = 0.408746 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> minimal beta*gamma = 0.410582 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08232 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08298 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 3.5538e-07 s, Live Particles: 65536 OPAL{0}> * E = 75.492 MeV, beta * gamma = 0.41572 OPAL{0}> * Bunch position: R = 2200.5 mm, Theta = 0.17465 Deg, Z = -0.053831 mm OPAL{0}> * Local Azimuth = 0.17361 Deg, Local Elevation = -0.0036407 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 65536 OPAL{0}> * Qtot = 78.973 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 77.855 [MeV] dEkin = 1.189 [MeV] OPAL{0}> * rmax = ( 2.22955 , 0.02332 , 0.00335 ) [m] OPAL{0}> * rmin = ( 2.16984 , -0.00524 , -0.00331 ) [m] OPAL{0}> * rms beam size = ( 17.01640 , 4.75077 , 1.04649 ) [mm] OPAL{0}> * rms momenta = ( 1.78371e-03 , 3.29520e-03 , 2.47856e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.20045 , 0.00671 , -0.00005 ) [m] OPAL{0}> * mean momenta = ( -1.25966e-03 , 4.15722e-01 , -2.64163e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.61989e-05 , 2.37283e-05 , 5.70791e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -6.38332e-01 , 7.76477e-01 , -4.03733e-01 ) OPAL{0}> * hr = ( 2.29020 , 1.71765 , 1.71765 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 355.380 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 40.188 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron RINGCYCLOTRON OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream 'AmrRingCyclotron-02.in' Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 142.453, CPU tot = 142.61 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 2.40248, CPU max = 2.32 Timings{0}> Wall avg = 2.30912, CPU avg = 2.2675 Timings{0}> Wall min = 2.21996, CPU min = 2.17 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.467011, CPU max = 0.61 Timings{0}> Wall avg = 0.443745, CPU avg = 0.49 Timings{0}> Wall min = 0.430118, CPU min = 0.43 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 30.3808, CPU max = 30.38 Timings{0}> Wall avg = 30.3708, CPU avg = 30.355 Timings{0}> Wall min = 30.365, CPU min = 30.31 Timings{0}> Timings{0}> AMR solve........... Wall max = 71.1475, CPU max = 71.17 Timings{0}> Wall avg = 71.134, CPU avg = 71.0625 Timings{0}> Wall min = 71.1205, CPU min = 70.94 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 3.7695, CPU max = 3.83 Timings{0}> Wall avg = 3.56969, CPU avg = 3.4775 Timings{0}> Wall min = 3.27362, CPU min = 3.1 Timings{0}> Timings{0}> AMR update particle. Wall max = 25.8003, CPU max = 25.97 Timings{0}> Wall avg = 25.6093, CPU avg = 25.625 Timings{0}> Wall min = 25.3382, CPU min = 25.26 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.553395, CPU max = 0.6 Timings{0}> Wall avg = 0.550817, CPU avg = 0.5475 Timings{0}> Wall min = 0.548103, CPU min = 0.51 Timings{0}> Timings{0}> Boundingbox......... Wall max = 4.24375, CPU max = 4.38 Timings{0}> Wall avg = 4.13472, CPU avg = 4.19 Timings{0}> Wall min = 3.97379, CPU min = 4.01 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0117472, CPU max = 0.02 Timings{0}> Wall avg = 0.0114752, CPU avg = 0.0125 Timings{0}> Wall min = 0.0106848, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 8.49702, CPU max = 8.5 Timings{0}> Wall avg = 7.21965, CPU avg = 7.29 Timings{0}> Wall min = 6.3994, CPU min = 6.51 Timings{0}> Timings{0}> Dump................ Wall max = 2.11418, CPU max = 2.01 Timings{0}> Wall avg = 1.9859, CPU avg = 1.835 Timings{0}> Wall min = 1.91554, CPU min = 1.67 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 1.35862, CPU max = 1.46 Timings{0}> Wall avg = 1.31008, CPU avg = 1.345 Timings{0}> Wall min = 1.23562, CPU min = 1.22 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 18.567, CPU max = 18.57 Timings{0}> Wall avg = 17.791, CPU avg = 17.745 Timings{0}> Wall min = 16.5785, CPU min = 16.62 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0191745, CPU max = 0.03 Timings{0}> Wall avg = 0.0178352, CPU avg = 0.02 Timings{0}> Wall min = 0.0160342, CPU min = 0.01 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00158622, CPU max = 0 Timings{0}> Wall avg = 0.00155884, CPU avg = 0 Timings{0}> Wall min = 0.00151489, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.084311, CPU max = 0.08 Timings{0}> Wall avg = 0.0830103, CPU avg = 0.075 Timings{0}> Wall min = 0.0820062, CPU min = 0.07 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.0395473, CPU max = 0.03 Timings{0}> Wall avg = 0.0299888, CPU avg = 0.02 Timings{0}> Wall min = 0.0204434, CPU min = 0.01 Timings{0}> Timings{0}> SelfField total..... Wall max = 108.712, CPU max = 108.74 Timings{0}> Wall avg = 108.672, CPU avg = 108.647 Timings{0}> Wall min = 108.638, CPU min = 108.61 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.0761168, CPU max = 0.08 Timings{0}> Wall avg = 0.0757763, CPU avg = 0.05 Timings{0}> Wall min = 0.0753211, CPU min = 0.04 Timings{0}> Timings{0}> Write Stat.......... Wall max = 0.846228, CPU max = 0.77 Timings{0}> Wall avg = 0.736545, CPU avg = 0.68 Timings{0}> Wall min = 0.680944, CPU min = 0.56 Timings{0}> Timings{0}> ----------------------------------------------------------------- -------------------------------------------------------------------------- mpirun has exited due to process rank 0 with PID 0 on node afsfs06 exiting improperly. There are three reasons this could occur: 1. this process did not call "init" before exiting, but others in the job did. This can cause a job to hang indefinitely while it waits for all processes to call "init". By rule, if one process calls "init", then ALL processes must call "init" prior to termination. 2. this process called "init", but exited without calling "finalize". By rule, all processes that call "init" MUST call "finalize" prior to exiting or it will be considered an "abnormal termination" 3. this process called "MPI_Abort" or "orte_abort" and the mca parameter orte_create_session_dirs is set to false. In this case, the run-time cannot detect that the abort call was an abnormal termination. Hence, the only error message you will receive is this one. This may have caused other processes in the application to be terminated by signals sent by mpirun (as reported here). You can avoid this message by specifying -quiet on the mpirun command line. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-03.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2024.2 OPAL{0}> git rev. ddba266f5d9d8db92319c2fd093aeb82a0706e2e OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 21:55:31 date: 09/12/2024 OPAL{0}> OPAL{0}> * Reading input stream 'AmrRingCyclotron-03.in' OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=10,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=20,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200, OPAL{0}> COMPUTEPERCENTILES=FALSE,DUMPBEAMMATRIX=FALSE; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03.stat' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03.lbal' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03.grid' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03.mem' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03-bunch-0000.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03-bunch-0001.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03-bunch-0002.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-03-bunch-0003.smb' OPAL{0}> OPAL{0}> Use 'GAMMA_BINNING' injection for binnning. OPAL{0}> OPAL{0}> ***-------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE --------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* T R A C K R U N *************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * DT = 1e-12 [s] OPAL{0}> * MAXSTEPS = 1800 OPAL{0}> * Mass of simulation particle = 7057 [GeV/c^2] OPAL{0}> * Charge of simulation particle = 1.205e-15 [C] OPAL{0}> * Number of neighbour bunches = 4 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution input momentum units: [eV/c] OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * REST MASS 0.9383 [GeV] OPAL{0}> * CHARGE +e * 1 OPAL{0}> * MOMENTUM 3.746e+08 [eV/c] OPAL{0}> * MOMENTUM TOLERANCE 0.01 OPAL{0}> * CURRENT 0.002 [A] OPAL{0}> * FREQUENCY 50.65 [MHz] OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 2 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2.13 [m] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [m] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum = 0.3992 [beta gamma] OPAL{0}> * Reference azimuthal momentum (Pt) = 0.3992 [beta gamma] OPAL{0}> * Reference radial momentum (Pr) = -0.000174 [beta gamma] OPAL{0}> * Reference axial momentum (Pz) = 0 [beta gamma] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = 's03av.nar' OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * RF frequency = 50.65 [MHz] OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 35 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 125 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * RF Field map file = 'Cav3.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 9.547e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 170 [deg] OPAL{0}> * Cavity gap width = 0.25 [m] OPAL{0}> * Cavity Shift distance = 0.452 [m] OPAL{0}> * Initial RF phase (t=0) = 149.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 215 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 305 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 10 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 1.1846e-07 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.40581 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10514 Deg, Z = -0.075578 mm OPAL{0}> * Local Azimuth = -0.35959 Deg, Local Elevation = -0.0036989 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.269801 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.400837 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402454 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07917 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07982 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> minimal beta*gamma = 0.403996 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> minimal beta*gamma = 0.405726 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 2.3692e-07 s, Live Particles: 65536 OPAL{0}> * E = 74.314 MeV, beta * gamma = 0.40912 OPAL{0}> * Bunch position: R = 2169.2 mm, Theta = -0.014593 Deg, Z = -0.060912 mm OPAL{0}> * Local Azimuth = -0.19614 Deg, Local Elevation = -0.0037979 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 OPAL{0}> * MBM: Bunch 3 injected, total particle number = 98304 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07922 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> minimal beta*gamma = 0.400788 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> minimal beta*gamma = 0.402252 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08042 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> minimal beta*gamma = 0.404029 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08171 OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 98304 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 3.5538e-07 s, Live Particles: 98304 OPAL{0}> * E = 75.49 MeV, beta * gamma = 0.4124 OPAL{0}> * Bunch position: R = 2185 mm, Theta = 0.083236 Deg, Z = -0.088569 mm OPAL{0}> * Local Azimuth = 0.0017674 Deg, Local Elevation = -0.0044958 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08171 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * MBM: Bunch 4 injected, total particle number = 131072 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> minimal beta*gamma = 0.399165 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> minimal beta*gamma = 0.402467 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08168 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> minimal beta*gamma = 0.403986 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> minimal beta*gamma = 0.405754 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 4 (local frame) at integration step 1440 OPAL{0}> * T = 4.7384e-07 s, Live Particles: 131072 OPAL{0}> * E = 76.669 MeV, beta * gamma = 0.41567 OPAL{0}> * Bunch position: R = 2201.1 mm, Theta = 0.16552 Deg, Z = -0.13105 mm OPAL{0}> * Local Azimuth = 0.17904 Deg, Local Elevation = -0.0054499 Deg Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08297 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08297 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> minimal beta*gamma = 0.40729 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08363 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08363 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> minimal beta*gamma = 0.408735 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> minimal beta*gamma = 0.410497 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08485 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08551 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08551 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}> * New finest level: 2 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08551 OPAL{0}> OPAL{0}> *** Finished turn 5, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 5 (local frame) at integration step 1800 OPAL{0}> * T = 5.923e-07 s, Live Particles: 131072 OPAL{0}> * E = 77.853 MeV, beta * gamma = 0.42223 OPAL{0}> * Bunch position: R = 2233 mm, Theta = 0.3082 Deg, Z = -0.17534 mm OPAL{0}> * Local Azimuth = 0.48605 Deg, Local Elevation = -0.00625 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 131072 OPAL{0}> * Qtot = 157.947 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.233 [MeV] dEkin = 2.687 [MeV] OPAL{0}> * rmax = ( 2.29149 , 0.03247 , 0.00531 ) [m] OPAL{0}> * rmin = ( 2.16995 , -0.00513 , -0.00555 ) [m] OPAL{0}> * rms beam size = ( 36.90736 , 7.04252 , 1.14508 ) [mm] OPAL{0}> * rms momenta = ( 2.80051e-03 , 7.34222e-03 , 2.02426e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23299 , 0.01201 , -0.00018 ) [m] OPAL{0}> * mean momenta = ( -3.58182e-03 , 4.22218e-01 , -4.60583e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 1.38068e-04 , 7.42636e-05 , 5.23736e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -8.25702e-01 , 7.95076e-01 , -2.99247e-01 ) OPAL{0}> * hr = ( 4.51680 , 3.38760 , 3.38760 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 592.300 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 67.384 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron RINGCYCLOTRON OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream 'AmrRingCyclotron-03.in' Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 167.759, CPU tot = 167.86 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 1.99964, CPU max = 2.06 Timings{0}> Wall avg = 1.96283, CPU avg = 1.9925 Timings{0}> Wall min = 1.89794, CPU min = 1.9 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.362488, CPU max = 0.35 Timings{0}> Wall avg = 0.332426, CPU avg = 0.32 Timings{0}> Wall min = 0.313597, CPU min = 0.29 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 44.9092, CPU max = 44.95 Timings{0}> Wall avg = 44.8726, CPU avg = 44.8775 Timings{0}> Wall min = 44.8288, CPU min = 44.82 Timings{0}> Timings{0}> AMR solve........... Wall max = 20.2635, CPU max = 20.33 Timings{0}> Wall avg = 20.2535, CPU avg = 20.2125 Timings{0}> Wall min = 20.2468, CPU min = 20.1 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 3.93664, CPU max = 3.88 Timings{0}> Wall avg = 3.70817, CPU avg = 3.7 Timings{0}> Wall min = 3.45299, CPU min = 3.39 Timings{0}> Timings{0}> AMR update particle. Wall max = 46.2631, CPU max = 46.3 Timings{0}> Wall avg = 46.0991, CPU avg = 46.12 Timings{0}> Wall min = 45.9341, CPU min = 45.92 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 1.66063, CPU max = 1.69 Timings{0}> Wall avg = 1.6571, CPU avg = 1.6675 Timings{0}> Wall min = 1.65275, CPU min = 1.64 Timings{0}> Timings{0}> Boundingbox......... Wall max = 7.7891, CPU max = 7.78 Timings{0}> Wall avg = 7.6214, CPU avg = 7.61 Timings{0}> Wall min = 7.48255, CPU min = 7.41 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.0222921, CPU max = 0.03 Timings{0}> Wall avg = 0.0219644, CPU avg = 0.015 Timings{0}> Wall min = 0.0211081, CPU min = 0 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 34.6503, CPU max = 34.61 Timings{0}> Wall avg = 30.3638, CPU avg = 30.3575 Timings{0}> Wall min = 23.5205, CPU min = 23.71 Timings{0}> Timings{0}> Dump................ Wall max = 6.74094, CPU max = 6.56 Timings{0}> Wall avg = 6.51214, CPU avg = 6.3575 Timings{0}> Wall min = 6.35446, CPU min = 6.18 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 3.66622, CPU max = 3.82 Timings{0}> Wall avg = 3.25324, CPU avg = 3.275 Timings{0}> Wall min = 2.98296, CPU min = 2.75 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 56.1751, CPU max = 56.2 Timings{0}> Wall avg = 49.4999, CPU avg = 49.555 Timings{0}> Wall min = 45.3249, CPU min = 45.38 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.0796439, CPU max = 0.09 Timings{0}> Wall avg = 0.0693846, CPU avg = 0.0625 Timings{0}> Wall min = 0.0597927, CPU min = 0.02 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00238132, CPU max = 0 Timings{0}> Wall avg = 0.00222243, CPU avg = 0 Timings{0}> Wall min = 0.00206561, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.420685, CPU max = 0.42 Timings{0}> Wall avg = 0.410327, CPU avg = 0.3975 Timings{0}> Wall min = 0.400607, CPU min = 0.38 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.0387633, CPU max = 0.04 Timings{0}> Wall avg = 0.0292947, CPU avg = 0.025 Timings{0}> Wall min = 0.019204, CPU min = 0.01 Timings{0}> Timings{0}> SelfField total..... Wall max = 68.3831, CPU max = 68.4 Timings{0}> Wall avg = 68.3247, CPU avg = 68.3225 Timings{0}> Wall min = 68.2818, CPU min = 68.26 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.160349, CPU max = 0.12 Timings{0}> Wall avg = 0.159911, CPU avg = 0.1025 Timings{0}> Wall min = 0.159464, CPU min = 0.09 Timings{0}> Timings{0}> Write Stat.......... Wall max = 2.82226, CPU max = 2.67 Timings{0}> Wall avg = 2.68477, CPU avg = 2.5225 Timings{0}> Wall min = 2.47099, CPU min = 2.23 Timings{0}> Timings{0}> ----------------------------------------------------------------- -------------------------------------------------------------------------- mpirun has exited due to process rank 1 with PID 0 on node afsfs06 exiting improperly. There are three reasons this could occur: 1. this process did not call "init" before exiting, but others in the job did. This can cause a job to hang indefinitely while it waits for all processes to call "init". By rule, if one process calls "init", then ALL processes must call "init" prior to termination. 2. this process called "init", but exited without calling "finalize". By rule, all processes that call "init" MUST call "finalize" prior to exiting or it will be considered an "abnormal termination" 3. this process called "MPI_Abort" or "orte_abort" and the mca parameter orte_create_session_dirs is set to false. In this case, the run-time cannot detect that the abort call was an abnormal termination. Hence, the only error message you will receive is this one. This may have caused other processes in the application to be terminated by signals sent by mpirun (as reported here). You can avoid this message by specifying -quiet on the mpirun command line. -------------------------------------------------------------------------- Running test: ./AmrRingCyclotron-04.local OPAL{0}> ____ _____ ___ OPAL{0}> / __ \| __ \ /\ | | OPAL{0}> | | | | |__) / \ | | OPAL{0}> | | | | ___/ /\ \ | | OPAL{0}> | |__| | | / ____ \| |____ OPAL{0}> \____/|_| /_/ \_\______| OPAL{0}> OPAL{0}> This is OPAL (Object Oriented Parallel Accelerator Library) Version 2024.2 OPAL{0}> git rev. ddba266f5d9d8db92319c2fd093aeb82a0706e2e OPAL{0}> OPAL{0}> OPAL{0}> (c) PSI, http://amas.web.psi.ch OPAL{0}> OPAL{0}> OPAL{0}> The optimiser (former opt-Pilot) is integrated OPAL{0}> OPAL{0}> Please send cookies, goodies or other motivations (wine and beer ... ) OPAL{0}> to the OPAL developers opal@lists.psi.ch OPAL{0}> OPAL{0}> Time: 21:58:28 date: 09/12/2024 OPAL{0}> OPAL{0}> * Reading input stream 'AmrRingCyclotron-04.in' OPAL{0}> OPAL{0}> Current settings of options: OPAL{0}> OPTION,ECHO=FALSE,INFO=TRUE,TRACE=FALSE,WARN=TRUE,SEED=1.23457e+08, OPAL{0}> TELL=TRUE,PSDUMPFREQ=4500,STATDUMPFREQ=1,PSDUMPEACHTURN=TRUE, OPAL{0}> PSDUMPFRAME="BUNCH_MEAN",SPTDUMPFREQ=1e+06,REPARTFREQ=5, OPAL{0}> REBINFREQ=100,SCSOLVEFREQ=40,MTSSUBSTEPS=1,REMOTEPARTDEL=0, OPAL{0}> RHODUMP=FALSE,EBDUMP=FALSE,CSRDUMP=FALSE,AUTOPHASE=6,NUMBLOCKS=0, OPAL{0}> RECYCLEBLOCKS=0,NLHS=1,CZERO=FALSE,RNGTYPE="RANDOM", OPAL{0}> ENABLEHDF5=TRUE,ENABLEVTK=TRUE,ASCIIDUMP=FALSE,BOUNDPDESTROYFQ=10, OPAL{0}> BEAMHALOBOUNDARY=0,CLOTUNEONLY=FALSE,IDEALIZED=FALSE, OPAL{0}> LOGBENDTRAJECTORY=FALSE,VERSION=20000,AMR=TRUE, OPAL{0}> AMR_YT_DUMP_FREQ=1e+06,AMR_REGRID_FREQ=80,MEMORYDUMP=TRUE, OPAL{0}> HALOSHIFT=0,DELPARTFREQ=1,MINBINEMITTED=10,MINSTEPFORREBIN=200, OPAL{0}> COMPUTEPERCENTILES=FALSE,DUMPBEAMMATRIX=FALSE; OPAL{0}> OPAL{0}[2]> OPAL{0}[2]> 8 elements selected. OPAL{0}[2]> OPAL{0}[2]> * Generation of distribution with seed = 123456789 OPAL{0}[2]> * isn't scalable with number of particles and cores. OPAL{0}> * m before gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ OPAL{0}> * m after gsl_linalg_cholesky_decomp OPAL{0}> * r(0, : ) = 1 & 0 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(1, : ) = 0 & 1 & 0 & 0 & 0 & 0 \\ OPAL{0}> * r(2, : ) = 0 & 0 & 1 & 0 & 0 & 0 \\ OPAL{0}> * r(3, : ) = 0 & 0 & 0 & 1 & 0 & 0 \\ OPAL{0}> * r(4, : ) = 0 & 0 & 0 & 0 & 1 & 0 \\ OPAL{0}> * r(5, : ) = 0 & 0 & 0 & 0 & 0 & 1 \\ Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04.stat' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04.lbal' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04.grid' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04.mem' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04-bunch-0000.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04-bunch-0001.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04-bunch-0002.smb' Ippl{0}> * Creating new file for data: 'AmrRingCyclotron-04-bunch-0003.smb' OPAL{0}> OPAL{0}> Use 'GAMMA_BINNING' injection for binnning. OPAL{0}> OPAL{0}> ***-------------------- MULTI-BUNCHES MULTI-ENERGY-BINS MODE --------------------*** OPAL{0}> Read in: Bin=0 Particles Num=131072 OPAL{0}> FORCE mode: The multi bunches will be injected consecutively OPAL{0}> after each revolution, until get "TURNS" bunches. OPAL{0}> OPAL{0}> * ************* T R A C K R U N *************************************************** OPAL{0}> * Selected Tracking Method == CYCLOTRON-T, NEW TRACK OPAL{0}> * ********************************************************************************** OPAL{0}> * Phase space dump frequency = 4500 OPAL{0}> * Statistics dump frequency = 1 w.r.t. the time step. OPAL{0}> * DT = 1e-12 [s] OPAL{0}> * MAXSTEPS = 1800 OPAL{0}> * Mass of simulation particle = 7057 [GeV/c^2] OPAL{0}> * Charge of simulation particle = 1.205e-15 [C] OPAL{0}> * Number of neighbour bunches = 4 OPAL{0}> * STEPSPERTURN = 360 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* D I S T R I B U T I O N ******************************************** OPAL{0}> * OPAL{0}> * Number of particles: 32768 OPAL{0}> * OPAL{0}> * Distribution input momentum units: [eV/c] OPAL{0}> * OPAL{0}> * Distribution type: GAUSS OPAL{0}> * OPAL{0}> * SIGMAX = 0.002 [m] OPAL{0}> * SIGMAY = 0.002 [m] OPAL{0}> * SIGMAZ = 0.002 [m] OPAL{0}> * SIGMAPX = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPY = 1.066e-16 [Beta Gamma] OPAL{0}> * SIGMAPZ = 3.617e-13 [Beta Gamma] OPAL{0}> * AVRGPZ = 0 [Beta Gamma] OPAL{0}> * CORRX = 0 OPAL{0}> * CORRY = 0 OPAL{0}> * CORRZ = 0 OPAL{0}> * R61 = 0 OPAL{0}> * R62 = 0 OPAL{0}> * R51 = 0 OPAL{0}> * R52 = 0 OPAL{0}> * CUTOFFX = 3 [units of SIGMAX] OPAL{0}> * CUTOFFY = 3 [units of SIGMAY] OPAL{0}> * CUTOFFLONG = 3 [units of SIGMAZ] OPAL{0}> * CUTOFFPX = 3 [units of SIGMAPX] OPAL{0}> * CUTOFFPY = 3 [units of SIGMAPY] OPAL{0}> * CUTOFFPZ = 3 [units of SIGMAPY] OPAL{0}> * OPAL{0}> * Distribution is injected. OPAL{0}> * OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* B E A M ************************************************************ OPAL{0}> * BEAM BEAM1 OPAL{0}> * PARTICLE PROTON OPAL{0}> * REST MASS 0.9383 [GeV] OPAL{0}> * CHARGE +e * 1 OPAL{0}> * MOMENTUM 3.746e+08 [eV/c] OPAL{0}> * MOMENTUM TOLERANCE 0.01 OPAL{0}> * CURRENT 0.002 [A] OPAL{0}> * FREQUENCY 50.65 [MHz] OPAL{0}> * NPART 3.277e+04 OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ************* F I E L D S O L V E R ********************************************** OPAL{0}> * FIELDSOLVER FS1 OPAL{0}> * TYPE ML OPAL{0}> * N-PROCESSORS 4 OPAL{0}> * MX 32 OPAL{0}> * MY 32 OPAL{0}> * MT 32 OPAL{0}> * BBOXINCR 20 OPAL{0}> * AMR_MAXLEVEL 3 OPAL{0}> * AMR_REFX 2 OPAL{0}> * AMR_REFY 2 OPAL{0}> * AMR_REFZ 2 OPAL{0}> * AMR_MAXGRIDX 32 OPAL{0}> * AMR_MAXGRIDY 32 OPAL{0}> * AMR_MAXGRIDZ 32 OPAL{0}> * AMR_BFX 16 OPAL{0}> * AMR_BFY 16 OPAL{0}> * AMR_BFZ 16 OPAL{0}> * AMR_TAGGING CHARGE_DENSITY OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_MAX_NUM_PART 1 OPAL{0}> * AMR_MIN_NUM_PART 1 OPAL{0}> * AMR_DENSITY 1e-09 OPAL{0}> * AMR_SCALING 0.75 OPAL{0}> * AMR_DOMAIN_RATIO ( 1 0.75 0.75 ) OPAL{0}> * XDIM parallel OPAL{0}> * YDIM parallel OPAL{0}> * Z(T)DIM parallel OPAL{0}> OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ----------------------------- Cyclotron -------------------------------- * OPAL{0}> OPAL{0}> * Bunch global starting position: OPAL{0}> * RINIT = 2.13 [m] OPAL{0}> * PHIINIT = 0 [deg] OPAL{0}> * ZINIT = 0 [m] OPAL{0}> OPAL{0}> * Bunch global starting momenta: OPAL{0}> * Initial gamma = 1.077 OPAL{0}> * Initial beta = 0.3708 OPAL{0}> * Reference total momentum = 0.3992 [beta gamma] OPAL{0}> * Reference azimuthal momentum (Pt) = 0.3992 [beta gamma] OPAL{0}> * Reference radial momentum (Pr) = -0.000174 [beta gamma] OPAL{0}> * Reference axial momentum (Pz) = 0 [beta gamma] OPAL{0}> OPAL{0}> * 8-fold field symmetry OPAL{0}> * Field map file = 's03av.nar' OPAL{0}> * Type of cyclotron = RING OPAL{0}> * Radial aperture = 0 ... 10 [m] OPAL{0}> * Vertical aperture = -10 ... 10 [m] OPAL{0}> * Number of trimcoils = 0 OPAL{0}> * Harmonic number h = 6 OPAL{0}> * RF frequency = 50.65 [MHz] OPAL{0}> * Read field data from PSI format field map file OPAL{0}> * ---------------------------------------------- OPAL{0}> * READ IN RING FIELD MAP OPAL{0}> * (The first data block is useless) OPAL{0}> * ---------------------------------------------- OPAL{0}> * Minimal radius of measured field map: 1900 [mm] OPAL{0}> * Stepsize in radial direction: 20 [mm] OPAL{0}> * Minimal angle of measured field map: 0 [deg] OPAL{0}> * Stepsize in azimuth direction: 0.3333 [deg] OPAL{0}> * Index in radial direction: 141 OPAL{0}> * Index in azimuthal direction: 135 OPAL{0}> * Accordingly, total grid point along azimuth: 136 OPAL{0}> * Total stored grid point number ( ntetS * nrad ): 19176 OPAL{0}> * Read-in loop one block per radius OPAL{0}> * Rescaling of the magnetic fields with factor: 1 OPAL{0}> * Field Map read successfully! OPAL{0}> OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF0 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 35 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF1 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 125 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF2 OPAL{0}> * RF Field map file = 'Cav3.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 9.547e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 170 [deg] OPAL{0}> * Cavity gap width = 0.25 [m] OPAL{0}> * Cavity Shift distance = 0.452 [m] OPAL{0}> * Initial RF phase (t=0) = 149.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF3 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 215 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 139.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ----------------------------- RFCavity --------------------------------- * OPAL{0}> * Name = RF4 OPAL{0}> * RF Field map file = 'Cav1.dat' OPAL{0}> * Minimal radius of cavity = 1.9 [m] OPAL{0}> * Maximal radius of cavity = 4.5 [m] OPAL{0}> * RF frequency (2*pi*f) = 3.182e+08 [rad/s] OPAL{0}> * Cavity azimuth position = 305 [deg] OPAL{0}> * Cavity gap width = 0.22 [m] OPAL{0}> * Cavity Shift distance = 0.416 [m] OPAL{0}> * Initial RF phase (t=0) = 319.4 [deg] OPAL{0}> * Cavity voltage data read successfully! OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * The selected Beam line elements are : OPAL{0}> * -> Cyclotron OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * -> RFCavity OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> OPAL{0}> * 4th order Runge-Kutta integrator OPAL{0}> OPAL{0}> * Store beam to H5 file for multibunch simulation ... Done. OPAL{0}> OPAL{0}> * Before repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * After repartition: min local particle number: 8120 OPAL{0}> * max local particle number: 8255 OPAL{0}> OPAL{0}> * *********************** Bunch information in local frame: ************************ OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 5.92953 , 5.98517 , 5.96754 ) [mm] OPAL{0}> * rmin = ( -5.98308 , -6.00790 , -5.98716 ) [mm] OPAL{0}> * rms beam size = ( 1.94725 , 1.95178 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03714e-16 , 5.73422e-14 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 0.00000 , -0.00000 , -0.00000 ) [um] OPAL{0}> * mean momenta = ( -1.64450e-17 , 3.99202e-01 , 6.95062e-18 ) [beta gamma] OPAL{0}> * rms emittance = ( 5.05902e-19 , 2.80338e-16 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 2.00994e-03 , -1.18747e-02 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> OPAL{0}> * Phase space dump 0 (local frame) at integration step 0 OPAL{0}> * T = 0 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.3992 OPAL{0}> * Bunch position: R = 2130 mm, Theta = 0.00027079 Deg, Z = 0.0017547 mm OPAL{0}> * Local Azimuth = 0.024973 Deg, Local Elevation = -2.5444e-14 Deg OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 32768 OPAL{0}> * Qtot = 39.487 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 72.000 [MeV] dEkin = 0.000 [eV] OPAL{0}> * rmax = ( 2.13595 , 0.00600 , 0.00597 ) [m] OPAL{0}> * rmin = ( 2.12404 , -0.00600 , -0.00599 ) [m] OPAL{0}> * rms beam size = ( 1.94724 , 1.95179 , 1.98421 ) [mm] OPAL{0}> * rms momenta = ( 1.03715e-16 , 1.97602e-16 , 3.54718e-13 ) [beta gamma] OPAL{0}> * mean position = ( 2.13002 , 0.00001 , 0.00000 ) [m] OPAL{0}> * mean momenta = ( -1.74000e-04 , 3.99202e-01 , -1.70331e-16 ) [beta gamma] OPAL{0}> * rms emittance = ( 0.00000e+00 , 0.00000e+00 , 1.76305e-15 ) (not normalized) OPAL{0}> * rms correlation = ( 1.87896e+00 , -5.45761e+00 , 7.92795e-03 ) OPAL{0}> * hr = ( 600.78992 , 450.59244 , 450.59244 ) [um] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 0.000 [fs] dT = 54.843 [ps] OPAL{0}> * spos = 0.000 [um] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * Beginning of this run is at t = 0 [ns] OPAL{0}> * The time step is set to dt = 0.32906 [ns] OPAL{0}> * MBM: Time interval between neighbour bunches is set to 118.46[ns] OPAL{0}> * MBM: The particles energy bin reset frequency is set to 100 OPAL{0}> * Single particle trajectory dump frequency is set to 1000000 OPAL{0}> * The frequency to solve space charge fields is set to 40 OPAL{0}> * The repartition frequency is set to 5 OPAL{0}> OPAL{0}> * ---------------------- Start tracking ---------------------------------- * OPAL{0}> OPAL{0}> *** Finished turn 1, Total number of live particles: 32768 OPAL{0}> OPAL{0}> * Phase space dump 1 (local frame) at integration step 360 OPAL{0}> * T = 1.1846e-07 s, Live Particles: 32768 OPAL{0}> * E = 72 MeV, beta * gamma = 0.4058 OPAL{0}> * Bunch position: R = 2154.3 mm, Theta = -0.10413 Deg, Z = -0.09482 mm OPAL{0}> * Local Azimuth = -0.35616 Deg, Local Elevation = -0.0039921 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 0.2698 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * MBM: Bunch 2 injected, total particle number = 65536 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07797 OPAL{0}> * Initialization of all levels OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 0 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> * Initialization done. Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> minimal beta*gamma = 0.400825 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07861 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.0786 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> minimal beta*gamma = 0.402435 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07925 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07916 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> minimal beta*gamma = 0.403968 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.07981 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08046 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> minimal beta*gamma = 0.405696 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 OPAL{0}> OPAL{0}> *** Finished turn 2, Total number of live particles: 65536 OPAL{0}> OPAL{0}> * Phase space dump 2 (local frame) at integration step 720 OPAL{0}> * T = 2.3692e-07 s, Live Particles: 65536 OPAL{0}> * E = 74.311 MeV, beta * gamma = 0.4091 OPAL{0}> * Bunch position: R = 2169.1 mm, Theta = -0.013293 Deg, Z = -0.049522 mm OPAL{0}> * Local Azimuth = -0.19158 Deg, Local Elevation = -0.0041962 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 65536 gamma = 1.08045 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07921 OPAL{0}> * MBM: Bunch 3 injected, total particle number = 98304 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07921 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07986 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07985 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07985 Ippl{0}> minimal beta*gamma = 0.400782 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.07985 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08051 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 Ippl{0}> minimal beta*gamma = 0.402232 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08041 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08107 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08106 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08106 Ippl{0}> minimal beta*gamma = 0.404016 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08106 Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08172 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> OPAL{0}> *** Finished turn 3, Total number of live particles: 98304 OPAL{0}> OPAL{0}> * Phase space dump 3 (local frame) at integration step 1080 OPAL{0}> * T = 3.5538e-07 s, Live Particles: 98304 OPAL{0}> * E = 75.486 MeV, beta * gamma = 0.41239 OPAL{0}> * Bunch position: R = 2184.9 mm, Theta = 0.08493 Deg, Z = -0.070472 mm OPAL{0}> * Local Azimuth = 0.0070457 Deg, Local Elevation = -0.0045669 Deg OPAL{0}> * MBM: Injecting a new bunch ... OPAL{0}> OPAL{0}> * Read beam from H5 file for multibunch simulation ... Done. Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 98304 gamma = 1.08171 Ippl{0}> minimal beta*gamma = 0.399202 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 OPAL{0}> * MBM: Bunch 4 injected, total particle number = 131072 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> minimal beta*gamma = 0.399162 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08047 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08112 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08111 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> minimal beta*gamma = 0.402451 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08177 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08167 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> minimal beta*gamma = 0.403966 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08233 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 Ippl{0}> minimal beta*gamma = 0.405768 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> OPAL{0}> *** Finished turn 4, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 4 (local frame) at integration step 1440 OPAL{0}> * T = 4.7384e-07 s, Live Particles: 131072 OPAL{0}> * E = 76.667 MeV, beta * gamma = 0.41567 OPAL{0}> * Bunch position: R = 2201.1 mm, Theta = 0.16753 Deg, Z = -0.099582 mm OPAL{0}> * Local Azimuth = 0.1853 Deg, Local Elevation = -0.0056432 Deg Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08298 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> minimal beta*gamma = 0.407166 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08364 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08363 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.0843 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> minimal beta*gamma = 0.408522 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08419 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding Ippl{0}> Before reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> minimal beta*gamma = 0.410312 Ippl{0}> After reset Bin: Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08486 Ippl{0}> Bin 0 : particle number = 131072 gamma = 1.08552 OPAL{0}> * Start regriding: OPAL{0}> * Old finest level: 3 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 0 OPAL{0}[2]> * Finished tagging of level 0 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}[2]> * Start tagging of level 1 OPAL{0}[2]> * Finished tagging of level 1 OPAL{0}[2]> * Start tagging of level 2 OPAL{0}[2]> * Finished tagging of level 2 OPAL{0}> * New finest level: 3 OPAL{0}> * Finished regriding OPAL{0}> OPAL{0}> *** Finished turn 5, Total number of live particles: 131072 OPAL{0}> OPAL{0}> * Phase space dump 5 (local frame) at integration step 1800 OPAL{0}> * T = 5.923e-07 s, Live Particles: 131072 OPAL{0}> * E = 77.855 MeV, beta * gamma = 0.42225 OPAL{0}> * Bunch position: R = 2233.1 mm, Theta = 0.31041 Deg, Z = -0.13083 mm OPAL{0}> * Local Azimuth = 0.49322 Deg, Local Elevation = -0.0070867 Deg OPAL{0}> OPAL{0}> * ---------------------- DONE TRACKING PARTICLES ------------------------- * OPAL{0}> OPAL{0}> * *********************** Bunch information in global frame: *********************** OPAL{0}> * ************** B U N C H ********************************************************* OPAL{0}> * NP = 131072 OPAL{0}> * Qtot = 157.947 [pC] Qi = 1.205 [fC] OPAL{0}> * Ekin = 80.238 [MeV] dEkin = 2.692 [MeV] OPAL{0}> * rmax = ( 2.29093 , 0.03190 , 0.00505 ) [m] OPAL{0}> * rmin = ( 2.17021 , -0.00502 , -0.00505 ) [m] OPAL{0}> * rms beam size = ( 36.93582 , 6.78707 , 1.03740 ) [mm] OPAL{0}> * rms momenta = ( 2.76752e-03 , 7.35763e-03 , 1.62886e-04 ) [beta gamma] OPAL{0}> * mean position = ( 2.23304 , 0.01210 , -0.00013 ) [m] OPAL{0}> * mean momenta = ( -3.63482e-03 , 4.22232e-01 , -5.22262e-05 ) [beta gamma] OPAL{0}> * rms emittance = ( 1.31574e-04 , 6.67123e-05 , 3.93238e-07 ) (not normalized) OPAL{0}> * rms correlation = ( -8.39357e-01 , 8.25652e-01 , -1.84762e-01 ) OPAL{0}> * hr = ( 4.34338 , 3.25754 , 3.25754 ) [mm] OPAL{0}> * dh = 2.00000e+01 [%] OPAL{0}> * t = 592.300 [ns] dT = 54.843 [ps] OPAL{0}> * spos = 67.383 [m] OPAL{0}> * ********************************************************************************** OPAL{0}> OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * Finalizing i.e. write data and close files : OPAL{0}> * Finalize cyclotron RINGCYCLOTRON OPAL{0}> * ------------------------------------------------------------------------ * OPAL{0}> * End of input stream 'AmrRingCyclotron-04.in' Timings{0}> ----------------------------------------------------------------- Timings{0}> Timing results for 4 nodes: Timings{0}> ----------------------------------------------------------------- Timings{0}> mainTimer........... Wall tot = 128.752, CPU tot = 128.89 Timings{0}> Timings{0}> AMR AssignDensity... Wall max = 1.19412, CPU max = 1.22 Timings{0}> Wall avg = 1.15659, CPU avg = 1.1225 Timings{0}> Wall min = 1.09349, CPU min = 1.04 Timings{0}> Timings{0}> AMR map particles... Wall max = 0.0871627, CPU max = 0.14 Timings{0}> Wall avg = 0.0815277, CPU avg = 0.105 Timings{0}> Wall min = 0.0783138, CPU min = 0.06 Timings{0}> Timings{0}> AMR regrid.......... Wall max = 24.5251, CPU max = 24.52 Timings{0}> Wall avg = 24.5142, CPU avg = 24.495 Timings{0}> Wall min = 24.5003, CPU min = 24.48 Timings{0}> Timings{0}> AMR solve........... Wall max = 21.921, CPU max = 21.95 Timings{0}> Wall avg = 21.9172, CPU avg = 21.9225 Timings{0}> Wall min = 21.9141, CPU min = 21.9 Timings{0}> Timings{0}> AMR sort particles.. Wall max = 1.50325, CPU max = 1.55 Timings{0}> Wall avg = 1.45633, CPU avg = 1.4925 Timings{0}> Wall min = 1.40936, CPU min = 1.43 Timings{0}> Timings{0}> AMR update particle. Wall max = 18.0726, CPU max = 18.07 Timings{0}> Wall avg = 18.023, CPU avg = 18.02 Timings{0}> Wall min = 17.9719, CPU min = 17.94 Timings{0}> Timings{0}> Binaryrepart........ Wall max = 0.6826, CPU max = 0.71 Timings{0}> Wall avg = 0.681188, CPU avg = 0.6775 Timings{0}> Wall min = 0.679468, CPU min = 0.65 Timings{0}> Timings{0}> Boundingbox......... Wall max = 2.6018, CPU max = 2.62 Timings{0}> Wall avg = 2.5705, CPU avg = 2.575 Timings{0}> Wall min = 2.54767, CPU min = 2.5 Timings{0}> Timings{0}> Boundingbox-bounds.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Boundingbox-update.. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Compute Statistics.. Wall max = 0.022908, CPU max = 0.03 Timings{0}> Wall avg = 0.0222233, CPU avg = 0.0225 Timings{0}> Wall min = 0.0206241, CPU min = 0.01 Timings{0}> Timings{0}> Create Distr........ Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> DeleteParticles..... Wall max = 23.2479, CPU max = 23.31 Timings{0}> Wall avg = 18.947, CPU avg = 18.885 Timings{0}> Wall min = 14.1021, CPU min = 14.05 Timings{0}> Timings{0}> Dump................ Wall max = 5.66682, CPU max = 5.69 Timings{0}> Wall avg = 5.54261, CPU avg = 5.4225 Timings{0}> Wall min = 5.40553, CPU min = 5.25 Timings{0}> Timings{0}> Fast inside test.... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Frametransform...... Wall max = 3.47952, CPU max = 3.54 Timings{0}> Wall avg = 3.17659, CPU avg = 3.1975 Timings{0}> Wall min = 2.96765, CPU min = 2.97 Timings{0}> Timings{0}> Histogram........... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Initialize geometry. Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Inside test......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Integration......... Wall max = 55.3507, CPU max = 55.39 Timings{0}> Wall avg = 50.5374, CPU avg = 50.5425 Timings{0}> Wall min = 46.2968, CPU min = 46.29 Timings{0}> Timings{0}> Load Distr.......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Particle Binning.... Wall max = 0.080315, CPU max = 0.09 Timings{0}> Wall avg = 0.0723277, CPU avg = 0.07 Timings{0}> Wall min = 0.0605236, CPU min = 0.05 Timings{0}> Timings{0}> Particle Inside..... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> PluginElements...... Wall max = 0.00225647, CPU max = 0.01 Timings{0}> Wall avg = 0.00219564, CPU avg = 0.0025 Timings{0}> Wall min = 0.00217063, CPU min = 0 Timings{0}> Timings{0}> Ray tracing......... Wall max = 0, CPU max = 0 Timings{0}> Wall avg = 0, CPU avg = 0 Timings{0}> Wall min = 0, CPU min = 0 Timings{0}> Timings{0}> Read Bunch H5....... Wall max = 0.45498, CPU max = 0.44 Timings{0}> Wall avg = 0.44211, CPU avg = 0.42 Timings{0}> Wall min = 0.433886, CPU min = 0.4 Timings{0}> Timings{0}> Save Bunch H5....... Wall max = 0.0218303, CPU max = 0.02 Timings{0}> Wall avg = 0.0214674, CPU avg = 0.0125 Timings{0}> Wall min = 0.0204941, CPU min = 0.01 Timings{0}> Timings{0}> SelfField total..... Wall max = 48.0572, CPU max = 48.06 Timings{0}> Wall avg = 48.0442, CPU avg = 48.05 Timings{0}> Wall min = 48.0362, CPU min = 48.03 Timings{0}> Timings{0}> Write H5-File....... Wall max = 0.14844, CPU max = 0.12 Timings{0}> Wall avg = 0.147305, CPU avg = 0.095 Timings{0}> Wall min = 0.145535, CPU min = 0.08 Timings{0}> Timings{0}> Write Stat.......... Wall max = 2.23114, CPU max = 2.15 Timings{0}> Wall avg = 1.94896, CPU avg = 1.8725 Timings{0}> Wall min = 1.76474, CPU min = 1.77 Timings{0}> Timings{0}> ----------------------------------------------------------------- -------------------------------------------------------------------------- mpirun has exited due to process rank 0 with PID 0 on node afsfs06 exiting improperly. There are three reasons this could occur: 1. this process did not call "init" before exiting, but others in the job did. This can cause a job to hang indefinitely while it waits for all processes to call "init". By rule, if one process calls "init", then ALL processes must call "init" prior to termination. 2. this process called "init", but exited without calling "finalize". By rule, all processes that call "init" MUST call "finalize" prior to exiting or it will be considered an "abnormal termination" 3. this process called "MPI_Abort" or "orte_abort" and the mca parameter orte_create_session_dirs is set to false. In this case, the run-time cannot detect that the abort call was an abnormal termination. Hence, the only error message you will receive is this one. This may have caused other processes in the application to be terminated by signals sent by mpirun (as reported here). You can avoid this message by specifying -quiet on the mpirun command line. -------------------------------------------------------------------------- Traceback (most recent call last): File "/vicepa/NightlyBuild/scripts/run-reg-tests.py", line 134, in main(sys.argv[1:]) File "/vicepa/NightlyBuild/scripts/run-reg-tests.py", line 131, in main rt.run() File "/vicepa/NightlyBuild/scripts/OpalRegressionTests/regressiontest.py", line 53, in run rt.publish(plot_dir) File "/vicepa/NightlyBuild/scripts/OpalRegressionTests/regressiontest.py", line 310, in publish shutil.copy (p, plots_dir) File "/opt/psi/Programming/Python/3.9.17/lib/python3.9/shutil.py", line 427, in copy copyfile(src, dst, follow_symlinks=follow_symlinks) File "/opt/psi/Programming/Python/3.9.17/lib/python3.9/shutil.py", line 266, in copyfile with open(dst, 'wb') as fdst: OSError: [Errno 122] Disk quota exceeded: '/afs/psi.ch/project/amas/webhosting/opal/regressionTests/master/plots_2024-12-09_21-49/AmrRingCyclotron-04-bunch-0001_halo_x.png'