Interface for RF cavity. More...

#include <RFCavity.h>

Inheritance diagram for RFCavity:

Collaboration diagram for RFCavity:

Public Types
enum	CavityType { SW, SGSW }

Public Types inherited from ElementBase
enum	ApertureType { RECTANGULAR, ELLIPTICAL, CONIC_RECTANGULAR, CONIC_ELLIPTICAL }

enum	ElementType { ALIGNWRAPPER, BEAMBEAM, BEAMBEAM3D, BEAMLINE, BEAMSTRIPPING, CCOLLIMATOR, CORRECTOR, CORRECTORWRAPPER, CYCLOTRON, CYCLOTRONWRAPPER, CYCLOTRONVALLEY, DEGRADER, DIAGNOSTIC, DRIFT, FLEXIBLECOLLIMATOR, INTEGRATOR, LAMBERTSON, MARKER, MONITOR, MPSPLITINTEGRATOR, MULTIPOLE, MULTIPOLET, MULTIPOLEWRAPPER, OFFSET, PARALLELPLATE, PATCH, PROBE, RBEND, RBEND3D, RBENDWRAPPER, RFCAVITY, RFQUADRUPOLE, RING, SBEND3D, SBEND, SBENDWRAPPER, SEPARATOR, SEPTUM, SOLENOID, SOURCE, STRIPPER, TRAVELINGWAVE, VARIABLERFCAVITY, ANY }

Public Member Functions
	RFCavity (const std::string &name)
	Constructor with given name. More...

	RFCavity ()

	RFCavity (const RFCavity &)

virtual	~RFCavity ()

virtual void	accept (BeamlineVisitor &) const override
	Apply visitor to RFCavity. More...

virtual double	getAmplitude () const =0
	Get RF amplitude. More...

virtual double	getFrequency () const =0
	Get RF frequencey. More...

virtual double	getPhase () const =0
	Get RF phase. More...

void	dropFieldmaps ()

virtual void	setFieldMapFN (std::string fmapfn)
	Set the name of the field map. More...

virtual std::string	getFieldMapFN () const

virtual void	setAmplitudem (double vPeak)

virtual double	getAmplitudem () const

virtual void	setAmplitudeError (double vPeakError)

virtual double	getAmplitudeError () const

virtual void	setFrequencym (double freq)

void	setFrequency (double freq)

virtual double	getFrequencym () const

virtual void	setPhasem (double phase)

virtual double	getPhasem () const

double	getPhasem (double t) const

virtual void	setPhaseError (double phaseError)

virtual double	getPhaseError () const

void	setCavityType (std::string type)

std::string	getCavityType () const

virtual void	setFast (bool fast)

virtual bool	getFast () const

virtual void	setAutophaseVeto (bool veto=true)

virtual bool	getAutophaseVeto () const

virtual double	getAutoPhaseEstimate (const double &E0, const double &t0, const double &q, const double &m)

virtual double	getAutoPhaseEstimateFallback (double E0, double t0, double q, double m)

virtual std::pair< double, double >	trackOnAxisParticle (const double &p0, const double &t0, const double &dt, const double &q, const double &mass, std::ofstream *out=NULL)

virtual void	addKR (int i, double t, Vector_t &K) override

virtual void	addKT (int i, double t, Vector_t &K) override

virtual bool	apply (const size_t &i, const double &t, Vector_t &E, Vector_t &B) override

virtual bool	apply (const Vector_t &R, const Vector_t &P, const double &t, Vector_t &E, Vector_t &B) override

virtual bool	applyToReferenceParticle (const Vector_t &R, const Vector_t &P, const double &t, Vector_t &E, Vector_t &B) override

virtual void	initialise (PartBunchBase< double, 3 > *bunch, double &startField, double &endField) override

virtual void	initialise (PartBunchBase< double, 3 > *bunch, std::shared_ptr< AbstractTimeDependence > freq_atd, std::shared_ptr< AbstractTimeDependence > ampl_atd, std::shared_ptr< AbstractTimeDependence > phase_atd)

virtual void	finalise () override

virtual bool	bends () const override

virtual void	goOnline (const double &kineticEnergy) override

virtual void	goOffline () override

virtual void	setDesignEnergy (const double &ekin, bool changeable=true) override

virtual double	getDesignEnergy () const override

void	setRmin (double rmin)

void	setRmax (double rmax)

void	setAzimuth (double angle)

void	setPerpenDistance (double pdis)

void	setGapWidth (double gapwidth)

void	setPhi0 (double phi0)

virtual double	getRmin () const

virtual double	getRmax () const

virtual double	getAzimuth () const

virtual double	getCosAzimuth () const

virtual double	getSinAzimuth () const

virtual double	getPerpenDistance () const

virtual double	getGapWidth () const

virtual double	getPhi0 () const

virtual void	setComponentType (std::string name) override

virtual std::string	getComponentType () const override

virtual double	getCycFrequency () const

void	getMomentaKick (const double normalRadius, double momentum[], const double t, const double dtCorrt, const int PID, const double restMass, const int chargenumber)
	used in OPAL-cycl More...

double	spline (double z, double *za)

virtual ElementBase::ElementType	getType () const override
	Get element type std::string. More...

virtual void	getDimensions (double &zBegin, double &zEnd) const override

virtual bool	isInside (const Vector_t &r) const override

void	setAmplitudeModel (std::shared_ptr< AbstractTimeDependence > time_dep)

void	setAmplitudeModelName (std::string name)

std::string	getAmplitudeModelName ()

void	setPhaseModel (std::shared_ptr< AbstractTimeDependence > time_dep)

void	setPhaseModelName (std::string name)

std::string	getPhaseModelName ()

void	setFrequencyModel (std::shared_ptr< AbstractTimeDependence > time_dep)

void	setFrequencyModelName (std::string name)

std::string	getFrequencyModelName ()

virtual double	getElementLength () const override
	Get design length. More...

virtual void	getElementDimensions (double &begin, double &end) const override

virtual CoordinateSystemTrafo	getEdgeToBegin () const override

virtual CoordinateSystemTrafo	getEdgeToEnd () const override

Public Member Functions inherited from Component
	Component (const std::string &name)
	Constructor with given name. More...

	Component ()

	Component (const Component &right)

virtual	~Component ()

virtual EMField &	getField ()=0
	Return field. More...

virtual const EMField &	getField () const =0
	Return field. More...

EVector	Efield (const Point3D &P) const
	Return the field in a point. More...

BVector	Bfield (const Point3D &P) const
	Return the field in a point. More...

EVector	Efield (const Point3D &P, double t) const
	Return the field in a point. More...

BVector	Bfield (const Point3D &P, double t) const
	Return the field in a point. More...

EBVectors	EBfield (const Point3D &P) const
	Return the field in a point. More...

EBVectors	EBfield (const Point3D &P, double t) const
	Return the field in a point. More...

virtual bool	getPotential (const Vector_t &R, const double &t, Vector_t &A, double &phi)

virtual bool	Online ()

virtual const ElementBase &	getDesign () const
	Return design element. More...

virtual void	trackBunch (PartBunchBase< double, 3 > *bunch, const PartData &, bool revBeam, bool revTrack) const
	Track particle bunch. More...

virtual void	trackMap (FVps< double, 6 > &map, const PartData &, bool revBeam, bool revTrack) const
	Track a map. More...

void	setExitFaceSlope (const double &)

Public Member Functions inherited from ElementBase
	ElementBase (const std::string &name)
	Constructor with given name. More...

	ElementBase ()

	ElementBase (const ElementBase &)

virtual	~ElementBase ()

virtual const std::string &	getName () const
	Get element name. More...

virtual void	setName (const std::string &name)
	Set element name. More...

std::string	getTypeString () const

virtual BGeometryBase &	getGeometry ()=0
	Get geometry. More...

virtual const BGeometryBase &	getGeometry () const =0
	Get geometry. More...

virtual double	getArcLength () const
	Get arc length. More...

virtual void	setElementLength (double length)
	Set design length. More...

virtual double	getOrigin () const
	Get origin position. More...

virtual double	getEntrance () const
	Get entrance position. More...

virtual double	getExit () const
	Get exit position. More...

virtual Euclid3D	getTransform (double fromS, double toS) const
	Get transform. More...

virtual Euclid3D	getTransform (double s) const
	Get transform. More...

virtual Euclid3D	getTotalTransform () const
	Get transform. More...

virtual Euclid3D	getEntranceFrame () const
	Get transform. More...

virtual Euclid3D	getExitFrame () const
	Get transform. More...

virtual Euclid3D	getEntrancePatch () const
	Get patch. More...

virtual Euclid3D	getExitPatch () const
	Get patch. More...

virtual double	getAttribute (const std::string &aKey) const
	Get attribute value. More...

virtual bool	hasAttribute (const std::string &aKey) const
	Test for existence of an attribute. More...

virtual void	removeAttribute (const std::string &aKey)
	Remove an existing attribute. More...

virtual void	setAttribute (const std::string &aKey, double val)
	Set value of an attribute. More...

virtual Channel *	getChannel (const std::string &aKey, bool create=false)
	Construct a read/write channel. More...

virtual const ConstChannel *	getConstChannel (const std::string &aKey) const
	Construct a read-only channel. More...

virtual ElementImage *	getImage () const
	Construct an image. More...

virtual ElementBase *	clone () const =0
	Return clone. More...

virtual ElementBase *	copyStructure ()
	Make a structural copy. More...

bool	isSharable () const
	Test if the element can be shared. More...

virtual void	makeSharable ()
	Set sharable flag. More...

virtual ElementBase *	makeAlignWrapper ()
	Allow misalignment. More...

virtual ElementBase *	makeFieldWrapper ()
	Allow field errors. More...

virtual ElementBase *	makeWrappers ()
	Allow errors. More...

virtual ElementBase *	removeAlignWrapper ()
	Remove align wrapper. More...

virtual const ElementBase *	removeAlignWrapper () const
	Remove align wrapper. More...

virtual ElementBase *	removeFieldWrapper ()
	Remove field wrapper. More...

virtual const ElementBase *	removeFieldWrapper () const
	Remove field wrapper. More...

virtual ElementBase *	removeWrappers ()
	Return the design element. More...

virtual const ElementBase *	removeWrappers () const
	Return the design element. More...

bool	update (const AttributeSet &)
	Update element. More...

virtual void	setBoundaryGeometry (BoundaryGeometry *geo)

virtual BoundaryGeometry *	getBoundaryGeometry () const
	return the attached boundary geometrt object if there is any More...

virtual bool	hasBoundaryGeometry () const

virtual void	setWake (WakeFunction *wf)
	attach a wake field to the element More...

virtual WakeFunction *	getWake () const
	return the attached wake object if there is any More...

virtual bool	hasWake () const

virtual void	setParticleMatterInteraction (ParticleMatterInteractionHandler *spys)

virtual ParticleMatterInteractionHandler *	getParticleMatterInteraction () const

virtual bool	hasParticleMatterInteraction () const

ElemType	getElType () const
	returns element type as enumeration needed in the envelope tracker More...

void	setElType (ElemType elt)
	set the element type as enumeration needed in the envelope tracker More...

void	setCSTrafoGlobal2Local (const CoordinateSystemTrafo &ori)

CoordinateSystemTrafo	getCSTrafoGlobal2Local () const

void	releasePosition ()

void	fixPosition ()

bool	isPositioned () const

void	setAperture (const ApertureType &type, const std::vector< double > &args)

std::pair < ElementBase::ApertureType, std::vector< double > >	getAperture () const

void	setMisalignment (double x, double y, double s)

void	setMisalignment (const CoordinateSystemTrafo &cst)

void	getMisalignment (double &x, double &y, double &s) const

CoordinateSystemTrafo	getMisalignment () const

void	setActionRange (const std::queue< std::pair< double, double > > &range)

void	setCurrentSCoordinate (double s)

void	setRotationAboutZ (double rotation)
	Set rotation about z axis in bend frame. More...

double	getRotationAboutZ () const

void	setElementPosition (double elemedge)
	Access to ELEMEDGE attribute. More...

double	getElementPosition () const

bool	isElementPositionSet () const

Public Member Functions inherited from RCObject
int	addReference () const
	Increment reference count. More...

int	removeReference () const
	Decrement the reference count. More...

bool	isShared () const
	Test for sharing. More...

Protected Attributes
std::shared_ptr < AbstractTimeDependence >	phase_td_m

std::string	phase_name_m

std::shared_ptr < AbstractTimeDependence >	amplitude_td_m

std::string	amplitude_name_m

std::shared_ptr < AbstractTimeDependence >	frequency_td_m

std::string	frequency_name_m

std::string	filename_m

double	scale_m

double	scaleError_m

double	phase_m

double	phaseError_m

double	frequency_m

bool	fast_m

bool	autophaseVeto_m

double	designEnergy_m

Protected Attributes inherited from Component
double	exit_face_slope_m

PartBunchBase< double, 3 > *	RefPartBunch_m

bool	online_m

Protected Attributes inherited from ElementBase
bool	shareFlag

CoordinateSystemTrafo	csTrafoGlobal2Local_m

CoordinateSystemTrafo	misalignment_m

std::pair< ApertureType, std::vector< double > >	aperture_m

double	elementEdge_m

double	rotationZAxis_m

Private Member Functions
double	getdE (const int &i, const std::vector< double > &t, const double &dz, const double &phi, const double &frequency, const std::vector< double > &F) const

double	getdT (const int &i, const std::vector< double > &E, const double &dz, const double mass) const

double	getdA (const int &i, const std::vector< double > &t, const double &dz, const double &frequency, const std::vector< double > &F) const

double	getdB (const int &i, const std::vector< double > &t, const double &dz, const double &frequency, const std::vector< double > &F) const

void	operator= (const RFCavity &)

Private Attributes
Fieldmap *	fieldmap_m

double	startField_m

double	endField_m

double	length_m

CavityType	type_m

double	rmin_m

double	rmax_m

double	angle_m

double	sinAngle_m

double	cosAngle_m

double	pdis_m

double	gapwidth_m

double	phi0_m

std::unique_ptr< double[]>	RNormal_m

std::unique_ptr< double[]>	VrNormal_m

std::unique_ptr< double[]>	DvDr_m

int	num_points_m

Additional Inherited Members
Static Public Member Functions inherited from ElementBase
static std::string	getTypeString (ElementType type)

Protected Member Functions inherited from ElementBase
bool	isInsideTransverse (const Vector_t &r, double f=1) const

Protected Member Functions inherited from RCObject
	RCObject ()
	Default constructor. More...

	RCObject (const RCObject &)
	Copy constructor. More...

virtual	~RCObject ()=0

RCObject &	operator= (const RCObject &right)

Static Protected Attributes inherited from Component
static const std::vector< double >	defaultAperture_m

Detailed Description

Interface for RF cavity.

Definition at line 37 of file RFCavity.h.

Member Enumeration Documentation

enum RFCavity::CavityType

Enumerator
SW
SGSW

Definition at line 41 of file RFCavity.h.

Constructor & Destructor Documentation

RFCavity::RFCavity ( const std::string & name )

explicit

Constructor with given name.

Definition at line 85 of file RFCavity.cpp.

References isRF, and ElementBase::setElType().

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RFCavity::RFCavity ( )

Definition at line 41 of file RFCavity.cpp.

RFCavity::RFCavity ( const RFCavity & right )

Definition at line 46 of file RFCavity.cpp.

References isRF, and ElementBase::setElType().

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RFCavity::~RFCavity ( )

virtual

Definition at line 124 of file RFCavity.cpp.

Member Function Documentation

void RFCavity::accept ( BeamlineVisitor & visitor ) const

overridevirtual

Apply visitor to RFCavity.

Implements ElementBase.

Reimplemented in TravelingWave.

Definition at line 134 of file RFCavity.cpp.

References BeamlineVisitor::visitRFCavity().

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void RFCavity::addKR	(	int	i,
		double	t,
		Vector_t &	K
	)

overridevirtual

ENVELOPE COMPONENT for radial focussing of the beam Calculates the transverse envelope component for the RF cavity element and adds it to the K vector

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 143 of file RFCavity.cpp.

References Physics::c, cos(), DZ, Physics::EMASS, fieldmap_m, frequency_m, PartBunchBase< T, Dim >::getBeta(), Fieldmap::getFieldDerivative(), Fieldmap::getFieldstrength(), PartBunchBase< T, Dim >::getGamma(), PartBunchBase< T, Dim >::getX(), PartBunchBase< T, Dim >::getY(), PartBunchBase< T, Dim >::getZ(), length_m, phase_m, Physics::q_e, Component::RefPartBunch_m, scale_m, sin(), and startField_m.

Referenced by addKT().

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void RFCavity::addKT	(	int	i,
		double	t,
		Vector_t &	K
	)

overridevirtual

ENVELOPE COMPONENT for transverse kick (only has an impact if x0, y0 != 0) Calculates the transverse kick component for the RF cavity element and adds it to the K vector. Only important for off track tracking, otherwise KT = 0.

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 171 of file RFCavity.cpp.

References PartBunchBase< T, Dim >::actT(), addKR(), cos(), fieldmap_m, frequency_m, Fieldmap::getFieldstrength(), PartBunchBase< T, Dim >::getGamma(), PartBunchBase< T, Dim >::getX(), PartBunchBase< T, Dim >::getX0(), PartBunchBase< T, Dim >::getY(), PartBunchBase< T, Dim >::getY0(), PartBunchBase< T, Dim >::getZ(), length_m, Physics::m_e, phase_m, Physics::q_e, Component::RefPartBunch_m, scale_m, and startField_m.

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bool RFCavity::apply	(	const size_t &	i,
		const double &	t,
		Vector_t &	E,
		Vector_t &	B
	)

overridevirtual

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 207 of file RFCavity.cpp.

References PartBunchBase< T, Dim >::P, PartBunchBase< T, Dim >::R, and Component::RefPartBunch_m.

bool RFCavity::apply	(	const Vector_t &	R,
		const Vector_t &	P,
		const double &	t,
		Vector_t &	E,
		Vector_t &	B
	)

overridevirtual

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 211 of file RFCavity.cpp.

References cos(), fieldmap_m, frequency_m, Fieldmap::getFieldstrength(), length_m, phase_m, phaseError_m, Attrib::Distribution::R, scale_m, scaleError_m, sin(), and startField_m.

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bool RFCavity::applyToReferenceParticle	(	const Vector_t &	R,
		const Vector_t &	P,
		const double &	t,
		Vector_t &	E,
		Vector_t &	B
	)

overridevirtual

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 231 of file RFCavity.cpp.

References cos(), fieldmap_m, frequency_m, Fieldmap::getFieldstrength(), length_m, phase_m, Attrib::Distribution::R, scale_m, sin(), and startField_m.

Referenced by trackOnAxisParticle().

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bool RFCavity::bends ( ) const

overridevirtual

Implements Component.

Reimplemented in TravelingWave.

Definition at line 342 of file RFCavity.cpp.

void RFCavity::dropFieldmaps ( )

inline

Definition at line 358 of file RFCavity.h.

References fieldmap_m.

Referenced by OpalCavity::update().

void RFCavity::finalise ( )

overridevirtual

Implements Component.

Reimplemented in TravelingWave.

Definition at line 339 of file RFCavity.cpp.

virtual double RFCavity::getAmplitude ( ) const

pure virtual

Get RF amplitude.

Implemented in RFCavityRep, TravelingWaveRep, and TravelingWave.

Referenced by ThinMapper::visitRFCavity(), OrbitTracker::visitRFCavity(), ThinTracker::visitRFCavity(), ThickMapper::visitRFCavity(), LieMapper::visitRFCavity(), LinearMapper::visitRFCavity(), and TransportMapper::visitRFCavity().

double RFCavity::getAmplitudeError ( ) const

inlinevirtual

Definition at line 388 of file RFCavity.h.

References scaleError_m.

Referenced by OpalTravelingWave::fillRegisteredAttributes().

double RFCavity::getAmplitudem ( ) const

inlinevirtual

Definition at line 378 of file RFCavity.h.

References scale_m.

Referenced by CavityAutophaser::getPhaseAtMaxEnergy().

std::string RFCavity::getAmplitudeModelName ( )

inline

Definition at line 473 of file RFCavity.h.

References amplitude_name_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getAutoPhaseEstimate	(	const double &	E0,
		const double &	t0,
		const double &	q,
		const double &	m
	)

virtual

Reimplemented in TravelingWave.

Definition at line 632 of file RFCavity.cpp.

References abs(), atan(), Physics::c, cos(), endl(), fieldmap_m, floor(), frequency_m, getAutoPhaseEstimateFallback(), getdA(), getdB(), getdE(), getdT(), Fieldmap::getOnaxisEz(), IpplInfo::Info, INFOMSG, matheval::detail::math::isnan(), level2(), Physics::pi, Inform::precision(), Physics::rad2deg, scale_m, sin(), sqrt(), and Physics::two_pi.

Referenced by CavityAutophaser::guessCavityPhase().

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double RFCavity::getAutoPhaseEstimateFallback	(	double	E0,
		double	t0,
		double	q,
		double	m
	)

virtual

Definition at line 589 of file RFCavity.cpp.

References Physics::e, endl(), floor(), fmod(), Util::getEnergy(), Util::getP(), getPhasem(), IpplInfo::Info, INFOMSG, level2(), Physics::pi, pi, Inform::precision(), Physics::rad2deg, setPhasem(), trackOnAxisParticle(), and Physics::two_pi.

Referenced by getAutoPhaseEstimate().

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bool RFCavity::getAutophaseVeto ( ) const

inlinevirtual

Definition at line 458 of file RFCavity.h.

References autophaseVeto_m.

Referenced by ParallelSliceTracker::autophaseCavities(), ParallelTTracker::autophaseCavities(), CavityAutophaser::getPhaseAtMaxEnergy(), CavityAutophaser::guessCavityPhase(), and CavityAutophaser::optimizeCavityPhase().

double RFCavity::getAzimuth ( ) const

virtual

Definition at line 391 of file RFCavity.cpp.

References angle_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

std::string RFCavity::getCavityType ( ) const

inline

Definition at line 438 of file RFCavity.h.

string RFCavity::getComponentType ( ) const

overridevirtual

Reimplemented from Component.

Definition at line 438 of file RFCavity.cpp.

References SGSW, and type_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getCosAzimuth ( ) const

virtual

Definition at line 399 of file RFCavity.cpp.

References cosAngle_m.

Referenced by ParallelCyclotronTracker::checkGapCross(), and ParallelCyclotronTracker::execute().

double RFCavity::getCycFrequency ( ) const

virtual

Definition at line 445 of file RFCavity.cpp.

References frequency_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getdA	(	const int &	i,
		const std::vector< double > &	t,
		const double &	dz,
		const double &	frequency,
		const std::vector< double > &	F
	)		const

inlineprivate

Definition at line 322 of file RFCavity.h.

References cos(), and sin().

Referenced by getAutoPhaseEstimate().

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double RFCavity::getdB	(	const int &	i,
		const std::vector< double > &	t,
		const double &	dz,
		const double &	frequency,
		const std::vector< double > &	F
	)		const

inlineprivate

Definition at line 334 of file RFCavity.h.

References cos(), and sin().

Referenced by getAutoPhaseEstimate().

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double RFCavity::getdE	(	const int &	i,
		const std::vector< double > &	t,
		const double &	dz,
		const double &	phi,
		const double &	frequency,
		const std::vector< double > &	F
	)		const

inlineprivate

Definition at line 282 of file RFCavity.h.

References cos(), and sin().

Referenced by getAutoPhaseEstimate().

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double RFCavity::getDesignEnergy ( ) const

inlineoverridevirtual

Reimplemented from Component.

Definition at line 352 of file RFCavity.h.

References designEnergy_m.

Referenced by OrbitThreader::getMaxDesignEnergy(), and CavityAutophaser::getPhaseAtMaxEnergy().

void RFCavity::getDimensions	(	double &	zBegin,
		double &	zEnd
	)		const

overridevirtual

Implements Component.

Reimplemented in TravelingWave.

Definition at line 579 of file RFCavity.cpp.

References endField_m, and startField_m.

double RFCavity::getdT	(	const int &	i,
		const std::vector< double > &	E,
		const double &	dz,
		const double	mass
	)		const

inlineprivate

Definition at line 294 of file RFCavity.h.

References Physics::c, and sqrt().

Referenced by getAutoPhaseEstimate().

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CoordinateSystemTrafo RFCavity::getEdgeToBegin ( ) const

inlineoverridevirtual

Reimplemented from ElementBase.

Reimplemented in TravelingWave.

Definition at line 509 of file RFCavity.h.

References startField_m.

CoordinateSystemTrafo RFCavity::getEdgeToEnd ( ) const

inlineoverridevirtual

Reimplemented from ElementBase.

Reimplemented in TravelingWave.

Definition at line 518 of file RFCavity.h.

References endField_m.

void RFCavity::getElementDimensions	(	double &	begin,
		double &	end
	)		const

overridevirtual

Reimplemented from ElementBase.

Reimplemented in TravelingWave.

Definition at line 829 of file RFCavity.cpp.

References fieldmap_m, and Fieldmap::getFieldDimensions().

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double RFCavity::getElementLength ( ) const

overridevirtual

Get design length.

Reimplemented from ElementBase.

Reimplemented in TravelingWave.

Definition at line 818 of file RFCavity.cpp.

References Physics::e, fieldmap_m, ElementBase::getElementLength(), and Fieldmap::getFieldDimensions().

Referenced by ThinMapper::visitRFCavity(), OrbitTracker::visitRFCavity(), ThinTracker::visitRFCavity(), ThickMapper::visitRFCavity(), LieMapper::visitRFCavity(), LinearMapper::visitRFCavity(), and TransportMapper::visitRFCavity().

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bool RFCavity::getFast ( ) const

inlinevirtual

Definition at line 448 of file RFCavity.h.

References fast_m.

std::string RFCavity::getFieldMapFN ( ) const

inlinevirtual

Definition at line 368 of file RFCavity.h.

References filename_m.

Referenced by OpalTravelingWave::fillRegisteredAttributes(), OpalCavity::fillRegisteredAttributes(), and ParallelCyclotronTracker::visitRFCavity().

virtual double RFCavity::getFrequency ( ) const

pure virtual

Get RF frequencey.

Implemented in RFCavityRep, TravelingWaveRep, and TravelingWave.

Referenced by ThinMapper::visitRFCavity(), OrbitTracker::visitRFCavity(), ThinTracker::visitRFCavity(), ThickMapper::visitRFCavity(), LieMapper::visitRFCavity(), LinearMapper::visitRFCavity(), and TransportMapper::visitRFCavity().

double RFCavity::getFrequencym ( ) const

inlinevirtual

Definition at line 403 of file RFCavity.h.

References frequency_m.

Referenced by CavityAutophaser::getPhaseAtMaxEnergy(), and CavityAutophaser::optimizeCavityPhase().

std::string RFCavity::getFrequencyModelName ( )

inline

Definition at line 503 of file RFCavity.h.

References frequency_name_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getGapWidth ( ) const

virtual

Definition at line 407 of file RFCavity.cpp.

References gapwidth_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

void RFCavity::getMomentaKick	(	const double	normalRadius,
		double	momentum[],
		const double	t,
		const double	dtCorrt,
		const int	PID,
		const double	restMass,
		const int	chargenumber
	)

used in OPAL-cycl

Is called from OPAL-cycl and can handle time dependent frequency, amplitude and phase

At the moment (test) only the frequency is time dependent

B field effects

Definition at line 459 of file RFCavity.cpp.

References Physics::c, cos(), cosAngle_m, Physics::e, endl(), fmod(), frequency_m, frequency_td_m, gapwidth_m, ElementBase::getName(), IpplInfo::myNode(), phi0_m, Physics::pi, pi, pow(), rmax_m, rmin_m, scale_m, sin(), sinAngle_m, spline(), sqrt(), and Physics::two_pi.

Referenced by ParallelCyclotronTracker::RFkick().

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double RFCavity::getPerpenDistance ( ) const

virtual

Definition at line 403 of file RFCavity.cpp.

References pdis_m.

Referenced by ParallelCyclotronTracker::checkGapCross(), ParallelCyclotronTracker::execute(), ParallelCyclotronTracker::RFkick(), and ParallelCyclotronTracker::visitRFCavity().

virtual double RFCavity::getPhase ( ) const

pure virtual

Get RF phase.

Implemented in RFCavityRep, TravelingWaveRep, and TravelingWave.

Referenced by ThinMapper::visitRFCavity(), OrbitTracker::visitRFCavity(), ThinTracker::visitRFCavity(), ThickMapper::visitRFCavity(), LieMapper::visitRFCavity(), LinearMapper::visitRFCavity(), and TransportMapper::visitRFCavity().

double RFCavity::getPhaseError ( ) const

inlinevirtual

Definition at line 428 of file RFCavity.h.

References phaseError_m.

Referenced by OpalTravelingWave::fillRegisteredAttributes().

double RFCavity::getPhasem ( ) const

inlinevirtual

Definition at line 413 of file RFCavity.h.

References phase_m.

Referenced by getAutoPhaseEstimateFallback(), CavityAutophaser::getPhaseAtMaxEnergy(), CavityAutophaser::guessCavityPhase(), CavityAutophaser::optimizeCavityPhase(), and CavityAutophaser::track().

double RFCavity::getPhasem ( double t ) const

inline

Definition at line 418 of file RFCavity.h.

References frequency_m, and phase_m.

std::string RFCavity::getPhaseModelName ( )

inline

Definition at line 488 of file RFCavity.h.

References phase_name_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getPhi0 ( ) const

virtual

Definition at line 411 of file RFCavity.cpp.

References phi0_m.

Referenced by ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getRmax ( ) const

virtual

Definition at line 387 of file RFCavity.cpp.

References rmax_m.

Referenced by ParallelCyclotronTracker::RFkick(), and ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getRmin ( ) const

virtual

Definition at line 383 of file RFCavity.cpp.

References rmin_m.

Referenced by ParallelCyclotronTracker::RFkick(), and ParallelCyclotronTracker::visitRFCavity().

double RFCavity::getSinAzimuth ( ) const

virtual

Definition at line 395 of file RFCavity.cpp.

References sinAngle_m.

Referenced by ParallelCyclotronTracker::checkGapCross(), and ParallelCyclotronTracker::execute().

ElementBase::ElementType RFCavity::getType ( ) const

overridevirtual

Get element type std::string.

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 585 of file RFCavity.cpp.

References ElementBase::RFCAVITY.

void RFCavity::goOffline ( )

overridevirtual

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 353 of file RFCavity.cpp.

References filename_m, Fieldmap::freeMap(), and Component::online_m.

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void RFCavity::goOnline ( const double & kineticEnergy )

overridevirtual

Reimplemented from Component.

Reimplemented in TravelingWave.

Definition at line 347 of file RFCavity.cpp.

References filename_m, Component::online_m, and Fieldmap::readMap().

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void RFCavity::initialise	(	PartBunchBase< double, 3 > *	bunch,
		double &	startField,
		double &	endField
	)

overridevirtual

Implements Component.

Reimplemented in TravelingWave.

Definition at line 252 of file RFCavity.cpp.

References abs(), Physics::e, endField_m, endl(), ERRORMSG, fast_m, fieldmap_m, filename_m, frequency_m, Fieldmap::getFieldDimensions(), Fieldmap::getFieldmap(), Fieldmap::getFrequency(), Fieldmap::getInfo(), ElementBase::getName(), length_m, level2(), IpplInfo::myNode(), Component::RefPartBunch_m, startField_m, Physics::two_pi, and Fieldmap::typeset_msg().

Referenced by ParallelCyclotronTracker::visitRFCavity().

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void RFCavity::initialise	(	PartBunchBase< double, 3 > *	bunch,
		std::shared_ptr< AbstractTimeDependence >	freq_atd,
		std::shared_ptr< AbstractTimeDependence >	ampl_atd,
		std::shared_ptr< AbstractTimeDependence >	phase_atd
	)

virtual

set the time dependent models

Definition at line 294 of file RFCavity.cpp.

References angle_m, cos(), cosAngle_m, DvDr_m, endl(), filename_m, frequency_name_m, PartBunchBase< T, Dim >::getQ(), num_points_m, Physics::pi, pi, Component::RefPartBunch_m, RNormal_m, setAmplitudeModel(), setFrequencyModel(), setPhaseModel(), sin(), sinAngle_m, and VrNormal_m.

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bool RFCavity::isInside ( const Vector_t & r ) const

overridevirtual

Reimplemented from ElementBase.

Reimplemented in TravelingWave.

Definition at line 810 of file RFCavity.cpp.

References fieldmap_m, Fieldmap::isInside(), and ElementBase::isInsideTransverse().

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void RFCavity::operator= ( const RFCavity & )

private

void RFCavity::setAmplitudeError ( double vPeakError )

inlinevirtual

Definition at line 383 of file RFCavity.h.

References scaleError_m.

Referenced by OpalTravelingWave::update(), and OpalCavity::update().

void RFCavity::setAmplitudem ( double vPeak )

inlinevirtual

Definition at line 373 of file RFCavity.h.

References scale_m.

Referenced by CavityAutophaser::getPhaseAtMaxEnergy(), OpalTravelingWave::update(), and OpalCavity::update().

void RFCavity::setAmplitudeModel ( std::shared_ptr< AbstractTimeDependence > time_dep )

inline

Definition at line 463 of file RFCavity.h.

References amplitude_td_m.

Referenced by initialise().

void RFCavity::setAmplitudeModelName ( std::string name )

inline

Definition at line 468 of file RFCavity.h.

References amplitude_name_m, and name.

Referenced by OpalCavity::update().

void RFCavity::setAutophaseVeto ( bool veto = true )

inlinevirtual

Definition at line 453 of file RFCavity.h.

References autophaseVeto_m.

Referenced by CavityAutophaser::getPhaseAtMaxEnergy(), OpalTravelingWave::update(), OpalCavity::update(), and ParallelTTracker::updateRFElement().

void RFCavity::setAzimuth ( double angle )

Definition at line 367 of file RFCavity.cpp.

References angle_m.

Referenced by OpalCavity::update().

void RFCavity::setCavityType ( std::string type )

inline

Definition at line 433 of file RFCavity.h.

Referenced by OpalCavity::update().

void RFCavity::setComponentType ( std::string name )

overridevirtual

Reimplemented from Component.

Definition at line 415 of file RFCavity.cpp.

References endl(), ERRORMSG, ElementBase::getName(), IpplInfo::myNode(), SGSW, SW, Util::toUpper(), type_m, and Fieldmap::typeset_msg().

Referenced by OpalCavity::update().

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void RFCavity::setDesignEnergy	(	const double &	ekin,
		bool	changeable = `true`
	)

inlineoverridevirtual

Reimplemented from Component.

Definition at line 346 of file RFCavity.h.

References designEnergy_m.

Referenced by OpalTravelingWave::update(), and OpalCavity::update().

void RFCavity::setFast ( bool fast )

inlinevirtual

Definition at line 443 of file RFCavity.h.

References fast_m.

Referenced by OpalTravelingWave::update(), and OpalCavity::update().

void RFCavity::setFieldMapFN ( std::string fmapfn )

inlinevirtual

Set the name of the field map.

Definition at line 363 of file RFCavity.h.

References filename_m.

Referenced by OpalTravelingWave::update(), and OpalCavity::update().

void RFCavity::setFrequency ( double freq )

inline

Definition at line 393 of file RFCavity.h.

References frequency_m.

void RFCavity::setFrequencym ( double freq )

inlinevirtual

Definition at line 398 of file RFCavity.h.

References frequency_m.

Referenced by OpalTravelingWave::update(), and OpalCavity::update().

void RFCavity::setFrequencyModel ( std::shared_ptr< AbstractTimeDependence > time_dep )

inline

Definition at line 493 of file RFCavity.h.

References frequency_td_m.

Referenced by initialise().

void RFCavity::setFrequencyModelName ( std::string name )

inline

Definition at line 498 of file RFCavity.h.

References frequency_name_m, and name.

Referenced by OpalCavity::update().

void RFCavity::setGapWidth ( double gapwidth )

Definition at line 375 of file RFCavity.cpp.

References gapwidth_m.

Referenced by OpalCavity::update().

void RFCavity::setPerpenDistance ( double pdis )

Definition at line 371 of file RFCavity.cpp.

References pdis_m.

Referenced by OpalCavity::update().

void RFCavity::setPhaseError ( double phaseError )

inlinevirtual

Definition at line 423 of file RFCavity.h.

References phaseError_m.

Referenced by OpalTravelingWave::update(), and OpalCavity::update().

void RFCavity::setPhasem ( double phase )

inlinevirtual

Reimplemented in TravelingWave.

Definition at line 408 of file RFCavity.h.

References phase_m.

Referenced by getAutoPhaseEstimateFallback(), CavityAutophaser::getPhaseAtMaxEnergy(), CavityAutophaser::track(), OpalCavity::update(), and ParallelTTracker::updateRFElement().

void RFCavity::setPhaseModel ( std::shared_ptr< AbstractTimeDependence > time_dep )

inline

Definition at line 478 of file RFCavity.h.

References phase_td_m.

Referenced by initialise().

void RFCavity::setPhaseModelName ( std::string name )

inline

Definition at line 483 of file RFCavity.h.

References name, and phase_name_m.

Referenced by OpalCavity::update().

void RFCavity::setPhi0 ( double phi0 )

Definition at line 379 of file RFCavity.cpp.

References phi0_m.

Referenced by OpalCavity::update().

void RFCavity::setRmax ( double rmax )

Definition at line 363 of file RFCavity.cpp.

References rmax_m.

Referenced by OpalCavity::update().

void RFCavity::setRmin ( double rmin )

Definition at line 359 of file RFCavity.cpp.

References rmin_m.

Referenced by OpalCavity::update().

double RFCavity::spline	(	double	z,
		double *	za
	)

Definition at line 519 of file RFCavity.cpp.

References DvDr_m, num_points_m, RNormal_m, splint(), and VrNormal_m.

Referenced by getMomentaKick().

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pair< double, double > RFCavity::trackOnAxisParticle	(	const double &	p0,
		const double &	t0,
		const double &	dt,
		const double &	q,
		const double &	mass,
		std::ofstream *	out = `NULL`
	)