Dire_fsr_qcd_Q2GQ Class Reference

Inheritance diagram for Dire_fsr_qcd_Q2GQ:

Public Member Functions
	Dire_fsr_qcd_Q2GQ (string idIn, int softRS, Settings *settings, ParticleData *particleData, Rndm *rndm, BeamParticle *beamA, BeamParticle *beamB, CoupSM *coupSM, Info *info, DireInfo *direInfo)
bool	canRadiate (const Event &, pair< int, int >, unordered_map< string, bool >=unordered_map< string, bool >(), Settings *=NULL, PartonSystems *=NULL, BeamParticle *=NULL)
	Class inheriting from SplittingQCD class. More...
bool	canRadiate (const Event &, int iRadBef, int iRecBef, Settings *=NULL, PartonSystems *=NULL, BeamParticle *=NULL)
int	nEmissions ()
int	kinMap ()
int	motherID (int idDaughter)
	Return id of mother after splitting.
int	sisterID (int idDaughter)
	Return id of emission.
int	radBefID (int idRadAfter, int idEmtAfter)
	Return id of recombined radiator (before splitting!)
vector< int >	recPositions (const Event &, int, int)
pair< int, int >	radBefCols (int colRadAfter, int acolRadAfter, int colEmtAfter, int acolEmtAfter)
	Return colours of recombined radiator (before splitting!)
double	gaugeFactor (int=0, int=0)
	Return color factor for splitting.
double	symmetryFactor (int=0, int=0)
	Return symmetry factor for splitting.
double	zSplit (double zMinAbs, double zMaxAbs, double m2dip)
	Pick z for new splitting.
double	overestimateInt (double zMinAbs, double zMaxAbs, double pT2Old, double m2dip, int order=-1)
	New overestimates, z-integrated versions. More...
double	overestimateDiff (double z, double m2dip, int order=-1)
	Return kernel for new splitting. More...
bool	calc (const Event &state=Event(), int order=-1)
	Functions to calculate the kernel from SplitInfo information. More...
Public Member Functions inherited from DireSplittingQCD
	DireSplittingQCD (string idIn, int softRS, Settings *settings, ParticleData *particleData, Rndm *rndm, BeamParticle *beamA, BeamParticle *beamB, CoupSM *coupSM, Info *info, DireInfo *direInfo)
	Constructor and destructor.
void	init ()
double	getNF (double pT2)
	AUXILIARY FUNCTIONS. More...
double	GammaQCD2 (double NF=5.)
double	GammaQCD3 (double NF=5.)
double	betaQCD0 (double NF=5.)
double	betaQCD1 (double NF=5.)
double	betaQCD2 (double NF=5.)
double	as2Pi (double pT2, int orderNow=-1, double renormMultFacNow=-1.)
double	softRescaleInt (int order)
double	softRescaleDiff (int order, double pT2, double renormMultFacNow=-1.)
double	beta0Endpoint (int order, double m2dip, double pT2, double z, double renormMultFacNow=-1.)
double	polevl (double x, double *coef, int N)
	Helper function to calculate dilogarithm.
double	DiLog (double x)
	Function to calculate dilogarithm.
vector< int >	sharedColor (const Event &event, int iRad, int iRec)
bool	hasSharedColor (const Event &event, int iRad, int iRec)
int	findCol (int col, vector< int > iExc, const Event &, int type)
bool	useFastFunctions ()
virtual vector< int >	radAndEmt (int idDaughter, int)
virtual bool	isPartial ()
virtual int	couplingType (int, int)
virtual double	coupling (double z, double pT2, double m2dip, double renormMultFacNow=-1., pair< int, bool > radBef=pair< int, bool >(), pair< int, bool > recBef=pair< int, bool >())
virtual double	couplingScale2 (double z, double pT2, double m2dip, pair< int, bool > radBef, pair< int, bool > recBef)
virtual double	getJacobian (const Event &=Event(), PartonSystems *partonSystems=0)
virtual unordered_map< string, double >	getPhasespaceVars (const Event &=Event(), PartonSystems *=0)
double	sCoef (int powz)
double	sExp (int powz)
double	kCoef (int powz)
double	kExp (int powz)
double	cCoef (int powz)
double	cExp (int powz)
double	fCoef ()
bool	hasMECBef (const Event &state, double pT2)
bool	hasMECAft (const Event &state, double pT2)
Public Member Functions inherited from DireSplitting
	DireSplitting ()
	Constructor and destructor.
	DireSplitting (string idIn, int softRS, Settings *settings, ParticleData *particleData, Rndm *rndm, BeamParticle *beamA, BeamParticle *beamB, CoupSM *coupSMPtrIn, Info *infoPtrIn, DireInfo *direInfo)
void	init ()
	The Splitting class.
bool	is (ulong pattern)
string	name ()
virtual bool	aboveCutoff (double, const Particle &, const Particle &, int, PartonSystems *=NULL)
	Discard below the cut-off for the splitting.
virtual vector< pair< int, int > >	radAndEmtCols (int, int, Event)
virtual bool	canUseForBranching ()
virtual bool	swapRadEmt ()
virtual bool	isSymmetric (const Particle *=NULL, const Particle *=NULL)
virtual double	getKernel (string="")
	Functions to store and retrieve all the variants of the kernel.
virtual unordered_map< string, double >	getKernelVals ()
virtual void	clearKernels ()
void	setTimesPtr (shared_ptr< DireTimes > fsrIn)
void	setTimesDecPtr (shared_ptr< DireTimes > fsrIn)
void	setSpacePtr (shared_ptr< DireSpace > isrIn)
virtual bool	allow_z_endpoint_for_kinematics ()
	Treatment of additional virtual corrections.
virtual bool	allow_pT2_endpoint_for_kinematics ()
virtual bool	allow_sai_endpoint_for_kinematics ()
virtual bool	allow_xa_endpoint_for_kinematics ()
virtual void	try_z_endpoint ()
	Functions to set if kernel should contribute to a kinematical endpoint.
virtual void	try_pT2_endpoint ()
virtual void	try_sai_endpoint ()
virtual void	try_xa_endpoint ()
virtual bool	is_z_endpoint ()
	Return endpoint information.
virtual bool	is_pT2_endpoint ()
virtual bool	is_sai_endpoint ()
virtual bool	is_xa_endpoint ()
virtual double	tdire_ff (double, double t, double)
	Functions to calculate Dire variables from the evolution variables.
virtual double	zdire_ff (double z, double, double)
virtual double	tdire_fi (double, double t, double)
virtual double	zdire_fi (double z, double, double)
virtual double	tdire_if (double, double t, double)
virtual double	zdire_if (double z, double, double)
virtual double	tdire_ii (double, double t, double)
virtual double	zdire_ii (double z, double, double)
virtual void	storeOverhead (double pT2, double x, int radid, int nf, double val)
virtual double	overhead (double pT2, int idd, int nf)

Additional Inherited Members
Public Attributes inherited from DireSplittingQCD
double	CA
	VARIABLES.
double	TR
double	CF
double	pTmin
double	pT2minVariations
int	NF_qcd_fsr
int	orderSave
bool	usePDFalphas
bool	doVariations
bool	doCorrelations
bool	doMECs
double	alphaSorder
double	alphaS2pi
AlphaStrong	alphaS
int	asSchemeISR
int	asSchemeFSR
bool	useBackboneGluons
bool	doGeneralizedKernel
Public Attributes inherited from DireSplitting
double	renormMultFac
string	id
int	correctionOrder
Settings *	settingsPtr
ParticleData *	particleDataPtr
Rndm *	rndmPtr
BeamParticle *	beamAPtr
BeamParticle *	beamBPtr
CoupSM *	coupSMPtr
Info *	infoPtr
DireInfo *	direInfoPtr
bool	is_qcd
	Some short-cuts and string hashes to help avoid string comparisons.
bool	is_qed
bool	is_ewk
bool	is_fsr
bool	is_isr
bool	is_dire
ulong	nameHash
unordered_map< string, double >	kernelVals
DireSplitInfo	splitInfo
shared_ptr< DireSpace >	isr
shared_ptr< DireTimes >	fsr
shared_ptr< DireTimes >	fsrDec
multimap< double, OverheadInfo >	overhead_map
Static Public Attributes inherited from DireSplittingQCD
static const double	SMALL_TEVOL = 2.0
	The SplittingQCD class.

Member Function Documentation

bool calc ( const Event &  state = Event(), int  order = -1  )

virtual

Functions to calculate the kernel from SplitInfo information.

Return kernel for new splitting.

Dummy statement to avoid compiler warnings.

Read all splitting variables.

Calculate kernel. Note: We are calculating the z <–> 1-z symmetrised kernel here, and later multiply with 1-z to project out Q->GQ, i.e. the quark is soft and the gluon is identified.

Create muR-variations.

Calculate argument of alphaS.

Rescale with soft cusp term only if NLO corrections are absent. This choice is purely heuristical to improve LEP description.

Correction for massive splittings.

Add collinear term for massless splittings.

Add collinear term for massive splittings.

splitType == 2 -> Massive FF

Calculate CS variables.

splitType ==-2 -> Massive FI

Calculate CS variables.

Add collinear term for massive splittings.

Add NLO term.

Do not perform variations below a small pT cut.

Evaluate kernel copied from Mathematica with 1-z!

Replace 1/z in NLO kernel with z/(z*z+kappa2) to restore sum rule.

Add NLO term.

Now multiply with (1-z) to project out Q->GQ, i.e. the quark is soft and the gluon is identified.

Store higher order correction separately.

Store kernel values.

Reimplemented from DireSplitting.

bool canRadiate ( const Event &  state, pair< int, int >  ints, unordered_map< string, bool >  = unordered_map<string,bool>(), Settings *  = NULL, PartonSystems *  = NULL, BeamParticle *  = NULL  )

virtual

Class inheriting from SplittingQCD class.

SplittingQCD function Q->GQ (FSR) At leading order, this can be combined with Q->QG because of symmetry. Since this is no longer possible at NLO, we keep the kernels separately. Return true if this kernel should partake in the evolution.

Reimplemented from DireSplitting.

int kinMap ( )

virtual

Function to return an identifier for the phase space mapping that is used for setting up this splitting. return values: 1 –> Default Dire mapping. 2 –> Dire 1->3 mapping.

Reimplemented from DireSplitting.

double overestimateDiff ( double  z, double  m2dip, int  order = -1  )

virtual

Return kernel for new splitting.

Return overestimate for new splitting.

Rescale with soft cusp term only if NLO corrections are absent. This choice is purely heuristical to improve LEP description.

Reimplemented from DireSplitting.

double overestimateInt ( double  zMinAbs, double  zMaxAbs, double  pT2Old, double  m2dip, int  order = -1  )

virtual

New overestimates, z-integrated versions.

Q -> QG, soft part (currently also used for collinear part).

Rescale with soft cusp term only if NLO corrections are absent. This choice is purely heuristical to improve LEP description.

Reimplemented from DireSplitting.

vector< int > recPositions ( const Event &  , int  , int    )

virtual

Return a vector of all possible recoiler positions, given the positions of the radiator and emission after the splitting.

For Q->GQ, swap radiator and emitted, since we now have to trace the radiator's colour connections.

Particles to exclude from colour tracing.

Find partons connected via emitted colour line.

Find partons connected via emitted anticolour line.

Done.

Reimplemented from DireSplitting.

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

• include/Pythia8/DireSplittingsQCD.h
• src/DireSplittingsQCD.cc