#include <VariableRFCavityFringeField.h>

Inheritance diagram for VariableRFCavityFringeField:

Collaboration diagram for VariableRFCavityFringeField:

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

	VariableRFCavityFringeField (const VariableRFCavityFringeField &)

	VariableRFCavityFringeField ()

VariableRFCavityFringeField &	operator= (const VariableRFCavityFringeField &)

virtual	~VariableRFCavityFringeField ()

virtual void	accept (BeamlineVisitor &) const override

virtual ElementBase *	clone () const 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	setEndField (std::shared_ptr< endfieldmodel::EndFieldModel > endField)

virtual std::shared_ptr < endfieldmodel::EndFieldModel >	getEndField () const

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

virtual void	setCavityCentre (double zCentre)

virtual double	getCavityCentre () const

virtual void	setMaxOrder (size_t maxOrder)

virtual size_t	getMaxOrder () const

void	initialiseCoefficients ()

void	printCoefficients (std::ostream &out) const

std::vector< std::vector < double > >	getEzCoefficients () const

std::vector< std::vector < double > >	getEyCoefficients () const

std::vector< std::vector < double > >	getBxCoefficients () const

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

	VariableRFCavity (const VariableRFCavity &)

	VariableRFCavity ()

VariableRFCavity &	operator= (const VariableRFCavity &)

virtual	~VariableRFCavity ()

virtual void	finalise () override

virtual bool	bends () const override

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

virtual double	getAmplitude (double time) const

virtual double	getFrequency (double time) const

virtual double	getPhase (double time) const

virtual double	getHeight () const

virtual double	getWidth () const

virtual double	getLength () const

virtual void	setHeight (double fullHeight)

virtual void	setWidth (double fullWidth)

virtual void	setLength (double length)

virtual std::shared_ptr < AbstractTimeDependence >	getAmplitudeModel () const

virtual std::shared_ptr < AbstractTimeDependence >	getPhaseModel () const

virtual std::shared_ptr < AbstractTimeDependence >	getFrequencyModel () const

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

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

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

virtual void	setAmplitudeName (std::string amplitude)

virtual void	setPhaseName (std::string phase)

virtual void	setFrequencyName (std::string frequency)

virtual StraightGeometry &	getGeometry () override

virtual const StraightGeometry &	getGeometry () const override

virtual EMField &	getField () override
	Not implemented. More...

virtual const EMField &	getField () const override
	Not implemented. More...

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

	Component ()

	Component (const Component &right)

virtual	~Component ()

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

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

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

virtual double	getDesignEnergy () const

virtual void	setDesignEnergy (const double &energy, bool changeable)

virtual void	goOnline (const double &kineticEnergy)

virtual void	goOffline ()

virtual bool	Online ()

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

virtual void	setComponentType (std::string)

virtual std::string	getComponentType () const

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

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

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

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

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 *	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

virtual CoordinateSystemTrafo	getEdgeToBegin () const

virtual CoordinateSystemTrafo	getEdgeToEnd () const

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

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

virtual bool	isInside (const Vector_t &r) 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
double	zCentre_m

size_t	maxOrder_m

std::shared_ptr < endfieldmodel::EndFieldModel >	endField_m

std::vector< std::vector < double > >	f_m

std::vector< std::vector < double > >	g_m

std::vector< std::vector < double > >	h_m

Protected Attributes inherited from VariableRFCavity
std::shared_ptr < AbstractTimeDependence >	phaseTD_m

std::shared_ptr < AbstractTimeDependence >	amplitudeTD_m

std::shared_ptr < AbstractTimeDependence >	frequencyTD_m

std::string	phaseName_m

std::string	amplitudeName_m

std::string	frequencyName_m

double	halfWidth_m

double	halfHeight_m

double	_length

StraightGeometry	geometry
	The cavity's geometry. More...

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
void	initNull ()

Additional Inherited Members
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 }

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

Protected Member Functions inherited from VariableRFCavity
void	initNull ()

void	initialise () const

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 VariableRFCavity
static const double	lengthUnit_m = 1e3

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

Detailed Description

Generates a field like Ey = E0*a(t)*y^{2n+1} g_n(z) sin{f(t)*t-q(t)} Ez = E0*a(t)*y^{2n} f_n(z) sin{f(t)*t-q(t)} Bx = B0*a(t)*y^{2n+1} h_n(z) cos{f(t)*t-q(t)} where E0, is a user-defined field and B0 is the corresponding magnetic field magnitude; f_n is a user-defined axial field dependence and g_n, h_n are the corresponding off-axis field dependencies. a(t), f(t), q(t) are time dependent amplitude, frequency, phase respectively; it is assumed that these quantities vary sufficiently slowly that Maxwell is satisfied.

Inherits from VariableRFCavity; inheritance is used here to share code from VariableRFCavity.

Set/get methods use metres; but internally we store as mm (for tracking)

Field units are kG and GV/mm

Definition at line 58 of file VariableRFCavityFringeField.h.

Constructor & Destructor Documentation

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

explicit

Constructor with given name.

Definition at line 35 of file VariableRFCavityFringeField.cpp.

References initNull().

Here is the call graph for this function:

VariableRFCavityFringeField::VariableRFCavityFringeField ( const VariableRFCavityFringeField & var )

Copy Constructor; performs deepcopy on time-dependence models

Definition at line 43 of file VariableRFCavityFringeField.cpp.

References initNull().

Here is the call graph for this function:

VariableRFCavityFringeField::VariableRFCavityFringeField ( )

Default constructor

Definition at line 39 of file VariableRFCavityFringeField.cpp.

References initNull().

Referenced by clone().

Here is the call graph for this function:

VariableRFCavityFringeField::~VariableRFCavityFringeField ( )

virtual

Destructor does nothing

The shared_ptrs will self-destruct when reference count goes to 0

Definition at line 62 of file VariableRFCavityFringeField.cpp.

Member Function Documentation

void VariableRFCavityFringeField::accept ( BeamlineVisitor & visitor ) const

overridevirtual

Apply visitor to RFCavity.

The RF cavity finds the "time dependence" models by doing a string lookup against a list held by AbstractTimeDependence at accept time.

Reimplemented from VariableRFCavity.

Definition at line 76 of file VariableRFCavityFringeField.cpp.

References VariableRFCavity::initialise(), initialiseCoefficients(), and BeamlineVisitor::visitVariableRFCavity().

Here is the call graph for this function:

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

overridevirtual

Calculate the field at the position of the i^th particle

Parameters

i	indexes the particle whose field we need
t	the time at which the field is calculated
E	return value with electric field strength
B	return value with magnetic field strength

Returns: True if particle is outside the boundaries; else False

Reimplemented from VariableRFCavity.

Definition at line 156 of file VariableRFCavityFringeField.cpp.

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

Referenced by applyToReferenceParticle().

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

overridevirtual

Calculate the field at a given position

Parameters

R	the position at which the field is calculated
P	the momentum (not used)
t	the time at which the field is calculated
E	return value; filled with electric field strength
B	return value; filled with magnetic field strength

Returns: True if particle is outside the boundaries; else False

Reimplemented from VariableRFCavity.

Definition at line 84 of file VariableRFCavityFringeField.cpp.

References VariableRFCavity::_length, abs(), VariableRFCavity::amplitudeTD_m, cos(), endField_m, f_m, VariableRFCavity::frequencyTD_m, g_m, h_m, VariableRFCavity::halfHeight_m, VariableRFCavity::halfWidth_m, maxOrder_m, Hypervolume::n, VariableRFCavity::phaseTD_m, sin(), Physics::two_pi, and zCentre_m.

Here is the call graph for this function:

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

overridevirtual

Calculate the field at a given position. This is identical to "apply".

Parameters

R	the position at which the field is calculated
P	the momentum (not used)
t	the time at which the field is calculated
E	return value; filled with electric field strength
B	return value; filled with magnetic field strength

Returns: True if particle is outside the boundaries; else False

Reimplemented from VariableRFCavity.

Definition at line 161 of file VariableRFCavityFringeField.cpp.

References apply().

Here is the call graph for this function:

ElementBase * VariableRFCavityFringeField::clone ( ) const

overridevirtual

Inheritable deepcopy method

Reimplemented from VariableRFCavity.

Definition at line 65 of file VariableRFCavityFringeField.cpp.

References VariableRFCavityFringeField().

Here is the call graph for this function:

std::vector< std::vector< double > > VariableRFCavityFringeField::getBxCoefficients ( ) const

inline

Get the coefficients for Bx

Definition at line 206 of file VariableRFCavityFringeField.h.

References h_m.

double VariableRFCavityFringeField::getCavityCentre ( ) const

inlinevirtual

Set the offset of centre of the cavity field from the element start in metres

Definition at line 177 of file VariableRFCavityFringeField.h.

References zCentre_m.

Referenced by OpalVariableRFCavityFringeField::fillRegisteredAttributes().

std::shared_ptr< endfieldmodel::EndFieldModel > VariableRFCavityFringeField::getEndField ( ) const

inlinevirtual

Get the endFieldModel

Returns: the endFieldModel; VariableRFCavityFringe retains ownership of the memory allocated to the endFieldModel.

Definition at line 191 of file VariableRFCavityFringeField.h.

References endField_m.

Referenced by OpalVariableRFCavityFringeField::fillRegisteredAttributes().

std::vector< std::vector< double > > VariableRFCavityFringeField::getEyCoefficients ( ) const

inline

Get the coefficients for Ey

Definition at line 201 of file VariableRFCavityFringeField.h.

References g_m.

std::vector< std::vector< double > > VariableRFCavityFringeField::getEzCoefficients ( ) const

inline

Get the coefficients for Ez

Definition at line 196 of file VariableRFCavityFringeField.h.

References f_m.

size_t VariableRFCavityFringeField::getMaxOrder ( ) const

inlinevirtual

Get the maximum y power that will be used in field calculations

Definition at line 186 of file VariableRFCavityFringeField.h.

References maxOrder_m.

Referenced by OpalVariableRFCavityFringeField::fillRegisteredAttributes().

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

overridevirtual

Initialise ready for tracking

Does any setup on VirtualRFCavity and sets field expansion coefficients

Reimplemented from VariableRFCavity.

Definition at line 169 of file VariableRFCavityFringeField.cpp.

References VariableRFCavity::initialise(), and initialiseCoefficients().

Here is the call graph for this function:

void VariableRFCavityFringeField::initialiseCoefficients ( )

Set the coefficients for calculating the field expansion

Definition at line 186 of file VariableRFCavityFringeField.cpp.

References Physics::c, Physics::e, f_m, g_m, h_m, maxOrder_m, and Hypervolume::n.

Referenced by accept(), initialise(), and setMaxOrder().

void VariableRFCavityFringeField::initNull ( )

private

Definition at line 69 of file VariableRFCavityFringeField.cpp.

References endField_m, VariableRFCavity::initNull(), maxOrder_m, and zCentre_m.

Referenced by VariableRFCavityFringeField().

Here is the call graph for this function:

VariableRFCavityFringeField & VariableRFCavityFringeField::operator= ( const VariableRFCavityFringeField & rhs )

Assignment operator; performs deepcopy on time-dependence models

Definition at line 48 of file VariableRFCavityFringeField.cpp.

References endField_m, f_m, g_m, h_m, VariableRFCavity::operator=(), setEndField(), and zCentre_m.

Here is the call graph for this function:

void VariableRFCavityFringeField::printCoefficients ( std::ostream & out ) const

Print the coefficients to ostream out

Definition at line 226 of file VariableRFCavityFringeField.cpp.

References endl(), f_m, g_m, h_m, and printVector().

Here is the call graph for this function:

void VariableRFCavityFringeField::setCavityCentre ( double zCentre )

inlinevirtual

Get the offset of centre of the cavity field from the element start in metres

Definition at line 173 of file VariableRFCavityFringeField.h.

References zCentre_m.

Referenced by OpalVariableRFCavityFringeField::update().

void VariableRFCavityFringeField::setEndField ( std::shared_ptr< endfieldmodel::EndFieldModel > endField )

virtual

Set the endFieldModel

Parameters

endField the new endFieldModel. VariableRFCavityFringe takes ownership of the memory allocated to endField.

Definition at line 236 of file VariableRFCavityFringeField.cpp.

References endField_m.

Referenced by operator=(), and OpalVariableRFCavityFringeField::update().

void VariableRFCavityFringeField::setMaxOrder ( size_t maxOrder )

inlinevirtual

Set the maximum y power

Definition at line 181 of file VariableRFCavityFringeField.h.

References initialiseCoefficients(), and maxOrder_m.

Referenced by OpalVariableRFCavityFringeField::update().

Here is the call graph for this function:

Member Data Documentation

std::shared_ptr<endfieldmodel::EndFieldModel> VariableRFCavityFringeField::endField_m

protected

Definition at line 165 of file VariableRFCavityFringeField.h.

Referenced by apply(), getEndField(), initNull(), operator=(), and setEndField().

std::vector<std::vector<double> > VariableRFCavityFringeField::f_m

protected

Definition at line 166 of file VariableRFCavityFringeField.h.

Referenced by apply(), getEzCoefficients(), initialiseCoefficients(), operator=(), and printCoefficients().

std::vector<std::vector<double> > VariableRFCavityFringeField::g_m

protected

Definition at line 167 of file VariableRFCavityFringeField.h.

Referenced by apply(), getEyCoefficients(), initialiseCoefficients(), operator=(), and printCoefficients().

std::vector<std::vector<double> > VariableRFCavityFringeField::h_m

protected

Definition at line 168 of file VariableRFCavityFringeField.h.

Referenced by apply(), getBxCoefficients(), initialiseCoefficients(), operator=(), and printCoefficients().

size_t VariableRFCavityFringeField::maxOrder_m

protected

Definition at line 164 of file VariableRFCavityFringeField.h.

Referenced by apply(), getMaxOrder(), initialiseCoefficients(), initNull(), and setMaxOrder().

double VariableRFCavityFringeField::zCentre_m

protected

Definition at line 163 of file VariableRFCavityFringeField.h.

Referenced by apply(), getCavityCentre(), initNull(), operator=(), and setCavityCentre().

The documentation for this class was generated from the following files:

src/Classic/AbsBeamline/VariableRFCavityFringeField.h
src/Classic/AbsBeamline/VariableRFCavityFringeField.cpp

Public Member Functions

Protected Attributes

Private Member Functions

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation