Sigma1ffbar2gmZZprime Class Reference

A derived class for f fbar -> gamma*/Z0/Z'0. More...

#include <SigmaNewGaugeBosons.h>

Inheritance diagram for Sigma1ffbar2gmZZprime:

Public Member Functions
	Sigma1ffbar2gmZZprime ()
	Constructor.
virtual void	initProc ()
	Initialize process.
virtual void	sigmaKin ()
	Calculate flavour-independent parts of cross section. More...
virtual double	sigmaHat ()
	Evaluate sigmaHat(sHat). More...
virtual void	setIdColAcol ()
	Select flavour, colour and anticolour. More...
virtual double	weightDecay (Event &process, int iResBeg, int iResEnd)
	Evaluate weight for Z' decay angle. More...
virtual string	name () const
	Info on the subprocess.
virtual int	code () const
virtual string	inFlux () const
	Need to know which incoming partons to set up interaction for.
virtual int	resonanceA () const
	Special treatment needed if process contains an s-channel resonance.
virtual int	resonanceB () const
Public Member Functions inherited from Sigma1ffbarZprimeWprime
	Sigma1ffbarZprimeWprime ()
	Constructor.
Public Member Functions inherited from Sigma1Process
virtual	~Sigma1Process ()
	Destructor.
virtual int	nFinal () const
	Number of final-state particles.
virtual void	set1Kin (double x1in, double x2in, double sHin)
	Input and complement kinematics for resolved 2 -> 1 process.
virtual double	sigmaHatWrap (int id1in=0, int id2in=0)
Public Member Functions inherited from SigmaProcess
virtual	~SigmaProcess ()
	Destructor.
void	init (BeamParticle *beamAPtrIn, BeamParticle *beamBPtrIn, SLHAinterface *slhaInterfacePtrIn=0)
	Perform simple initialization and store pointers. More...
void	setLHAPtr (LHAupPtr lhaUpPtrIn)
	Store or replace Les Houches pointer.
void	updateBeamIDs ()
	Switch to new beam particle identities; for similar hadrons only.
virtual bool	initFlux ()
	Set up allowed flux of incoming partons. Default is no flux. More...
virtual void	set2Kin (double, double, double, double, double, double, double, double)
virtual void	set2KinMPI (double, double, double, double, double, double, double, bool, double, double)
virtual void	set3Kin (double, double, double, Vec4, Vec4, Vec4, double, double, double, double, double, double)
virtual double	sigmaPDF (bool initPS=false, bool samexGamma=false, bool useNewXvalues=false, double x1New=0., double x2New=0.)
void	pickInState (int id1in=0, int id2in=0)
	Select incoming parton channel and extract parton densities (resolved). More...
virtual bool	final2KinMPI (int=0, int=0, Vec4=0., Vec4=0., double=0., double=0.)
	Perform kinematics for a Multiparton Interaction, in its rest frame.
virtual void	setScale ()
	Set scale, when that is missing for an external LHA process.
virtual bool	convert2mb () const
	Need to know whether to convert cross section answer from GeV^-2 to mb.
virtual bool	convertM2 () const
	For 2 -> 2 process optional conversion from |M|^2 to d(sigmaHat)/d(tHat).
virtual bool	isLHA () const
	Special treatment needed for Les Houches processes.
virtual bool	isNonDiff () const
	Special treatment needed for elastic and diffractive processes.
virtual bool	isResolved () const
virtual bool	isDiffA () const
virtual bool	isDiffB () const
virtual bool	isDiffC () const
virtual bool	isSUSY () const
	Special treatment needed for SUSY processes.
virtual bool	allowNegativeSigma () const
	Special treatment needed if negative cross sections allowed.
virtual int	id3Mass () const
virtual int	id4Mass () const
virtual int	id5Mass () const
virtual bool	isSChannel () const
	2 -> 2 and 2 -> 3 processes only through s-channel exchange.
virtual int	idSChannel () const
	NOAM: Insert an intermediate resonance in 2 -> 1 -> 2 (or 3) listings.
virtual bool	isQCD3body () const
	QCD 2 -> 3 processes need special phase space selection machinery.
virtual int	idTchan1 () const
	Special treatment in 2 -> 3 with two massive propagators.
virtual int	idTchan2 () const
virtual double	tChanFracPow1 () const
virtual double	tChanFracPow2 () const
virtual bool	useMirrorWeight () const
virtual int	gmZmode () const
	Special process-specific gamma*/Z0 choice if >=0 (e.g. f fbar -> H0 Z0).
bool	swappedTU () const
	Tell whether tHat and uHat are swapped (= same as swap 3 and 4).
int	id (int i) const
	Give back particle properties: flavours, colours, masses, or all.
int	col (int i) const
int	acol (int i) const
double	m (int i) const
Particle	getParton (int i) const
double	Q2Ren () const
double	alphaEMRen () const
double	alphaSRen () const
double	Q2Fac () const
double	pdf1 () const
double	pdf2 () const
double	thetaMPI () const
	Give back angles; relevant only for multipe-interactions processes.
double	phiMPI () const
double	sHBetaMPI () const
double	pT2MPI () const
double	pTMPIFin () const
void	saveKin ()
	Save and load kinematics for trial interactions.
void	loadKin ()
void	swapKin ()
virtual void	setIdInDiff (int, int)
	Set the incoming ids for diffraction.
Public Member Functions inherited from PhysicsBase
void	initInfoPtr (Info &infoPtrIn)
	This function is called from above for physics objects used in a run. More...
virtual	~PhysicsBase ()
	Empty virtual destructor.
bool	flag (string key) const
	Shorthand to read settings values.
int	mode (string key) const
double	parm (string key) const
string	word (string key) const
vector< bool >	fvec (string key) const
vector< int >	mvec (string key) const
vector< double >	pvec (string key) const
vector< string >	wvec (string key) const

Additional Inherited Members
Public Types inherited from PhysicsBase
enum	Status {   INCOMPLETE = -1, COMPLETE = 0, CONSTRUCTOR_FAILED, INIT_FAILED,   LHEF_END, LOWENERGY_FAILED, PROCESSLEVEL_FAILED, PROCESSLEVEL_USERVETO,   MERGING_FAILED, PARTONLEVEL_FAILED, PARTONLEVEL_USERVETO, HADRONLEVEL_FAILED,   CHECK_FAILED, OTHER_UNPHYSICAL, HEAVYION_FAILED, HADRONLEVEL_USERVETO }
	Enumerate the different status codes the event generation can have.
Public Attributes inherited from SigmaProcess
Z0 gamma *Z0 *	Usage: weightDecayFlav( process). */ virtual double weightDecayFlav( Event&) {return 1.
Protected Member Functions inherited from Sigma1ffbarZprimeWprime
void	setupProd (Event &process, int i1, int i2, int i3, int i4, int i5, int i6)
	Calculate and store internal products. More...
complex	fGK (int i1, int i2, int i3, int i4, int i5, int i6)
	Evaluate the F function of Gunion and Kunszt.
double	xiGK (double tHnow, double uHnow, double s3now, double s4now)
	Evaluate the Xi function of Gunion and Kunszt.
double	xjGK (double tHnow, double uHnow, double s3now, double s4now)
	Evaluate the Xj function of Gunion and Kunszt.
Protected Member Functions inherited from Sigma1Process
	Sigma1Process ()
	Constructor.
virtual void	store1Kin (double x1in, double x2in, double sHin)
	Store kinematics and set scales for resolved 2 -> 1 process. More...
virtual bool	setupForME ()
	Calculate modified masses and four-vectors for matrix elements. More...
Protected Member Functions inherited from SigmaProcess
	SigmaProcess ()
	Constructor.
void	addBeamA (int idIn)
void	addBeamB (int idIn)
int	sizeBeamA () const
int	sizeBeamB () const
void	addPair (int idAIn, int idBIn)
int	sizePair () const
bool	setupForMEin ()
	Calculate incoming modified masses and four-vectors for matrix elements. More...
void	setId (int id1in=0, int id2in=0, int id3in=0, int id4in=0, int id5in=0)
	Set flavour, colour and anticolour.
void	setColAcol (int col1=0, int acol1=0, int col2=0, int acol2=0, int col3=0, int acol3=0, int col4=0, int acol4=0, int col5=0, int acol5=0)
void	swapColAcol ()
void	swapCol1234 ()
void	swapCol12 ()
void	swapCol34 ()
double	weightTopDecay (Event &process, int iResBeg, int iResEnd)
	Common code for top and Higgs secondary decay angular weights. More...
double	weightHiggsDecay (Event &process, int iResBeg, int iResEnd)
Protected Member Functions inherited from PhysicsBase
	PhysicsBase ()
	Default constructor.
virtual void	onInitInfoPtr ()
virtual void	onBeginEvent ()
	This function is called in the very beginning of each Pythia::next call.
virtual void	onEndEvent (Status)
virtual void	onStat ()
	This function is called from the Pythia::stat() call.
void	registerSubObject (PhysicsBase &pb)
	Register a sub object that should have its information in sync with this.
Protected Attributes inherited from Sigma1ffbarZprimeWprime
Vec4	pRot [7]
	Internal products.
complex	hA [7][7]
complex	hC [7][7]
Protected Attributes inherited from SigmaProcess
SusyLesHouches *	slhaPtr
	Pointer to an SLHA object.
LHAupPtr	lhaUpPtr
	Pointer to LHAup for generating external events.
bool	doVarE
	Initialization data, normally only set once.
int	nQuarkIn
int	renormScale1
int	renormScale2
int	renormScale3
int	renormScale3VV
int	factorScale1
int	factorScale2
int	factorScale3
int	factorScale3VV
double	Kfactor
double	mcME
double	mbME
double	mmuME
double	mtauME
double	renormMultFac
double	renormFixScale
double	factorMultFac
double	factorFixScale
int	higgsH1parity
	CP violation parameters for Higgs sector, normally only set once.
int	higgsH2parity
int	higgsA3parity
double	higgsH1eta
double	higgsH2eta
double	higgsA3eta
double	higgsH1phi
double	higgsH2phi
double	higgsA3phi
int	idA
	Information on incoming beams.
int	idB
double	mA
double	mB
bool	isLeptonA
bool	isLeptonB
bool	hasLeptonBeams
bool	beamA2gamma
bool	beamB2gamma
bool	hasGamma
vector< InBeam >	inBeamA
	Partons in beams, with PDF's.
vector< InBeam >	inBeamB
vector< InPair >	inPair
	Allowed colliding parton pairs, with pdf's.
double	mH
	Store common subprocess kinematics quantities.
double	sH
double	sH2
double	Q2RenSave
	Store Q2 renormalization and factorization scales, and related values.
double	alpEM
double	alpS
double	Q2FacSave
double	x1Save
double	x2Save
double	pdf1Save
double	pdf2Save
double	sigmaSumSave
int	id1
	Store flavour, colour, anticolour, mass, angles and the whole particle.
int	id2
int	id3
int	id4
int	id5
int	idSave [12]
int	colSave [12]
int	acolSave [12]
double	mSave [12]
double	cosTheta
double	sinTheta
double	phi
double	sHMass
double	sHBeta
double	pT2Mass
double	pTFin
Particle	parton [12]
Particle	partonT [12]
double	mSaveT [12]
double	pTFinT
double	cosThetaT
double	sinThetaT
double	phiT
double	mME [12]
Vec4	pME [12]
bool	swapTU
	Store whether tHat and uHat are swapped (= same as swap 3 and 4).
Protected Attributes inherited from PhysicsBase
Info *	infoPtr = {}
Settings *	settingsPtr = {}
	Pointer to the settings database.
ParticleData *	particleDataPtr = {}
	Pointer to the particle data table.
Logger *	loggerPtr = {}
	Pointer to logger.
HadronWidths *	hadronWidthsPtr = {}
	Pointer to the hadron widths data table.
Rndm *	rndmPtr = {}
	Pointer to the random number generator.
CoupSM *	coupSMPtr = {}
	Pointers to SM and SUSY couplings.
CoupSUSY *	coupSUSYPtr = {}
BeamSetup *	beamSetupPtr = {}
BeamParticle *	beamAPtr = {}
BeamParticle *	beamBPtr = {}
BeamParticle *	beamPomAPtr = {}
BeamParticle *	beamPomBPtr = {}
BeamParticle *	beamGamAPtr = {}
BeamParticle *	beamGamBPtr = {}
BeamParticle *	beamVMDAPtr = {}
BeamParticle *	beamVMDBPtr = {}
PartonSystems *	partonSystemsPtr = {}
	Pointer to information on subcollision parton locations.
SigmaTotal *	sigmaTotPtr = {}
	Pointers to the total/elastic/diffractive cross sections.
SigmaCombined *	sigmaCmbPtr = {}
set< PhysicsBase * >	subObjects
UserHooksPtr	userHooksPtr
Static Protected Attributes inherited from SigmaProcess
static const double	CONVERT2MB = 0.389380
	Constants: could only be changed in the code itself. More...
static const double	MASSMARGIN = 0.1
	The sum of outgoing masses must not be too close to the cm energy.
static const double	COMPRELERR = 1e-10
static const int	NCOMPSTEP = 10

Detailed Description

A derived class for f fbar -> gamma*/Z0/Z'0.

Member Function Documentation

void setIdColAcol ( )

virtual

Select flavour, colour and anticolour.

Select identity, colour and anticolour.

Flavours trivial.

Colour flow topologies. Swap when antiquarks.

Reimplemented from SigmaProcess.

double sigmaHat ( )

virtual

Evaluate sigmaHat(sHat).

Evaluate sigmaHat(sHat), including incoming flavour dependence.

Couplings to an incoming flavour.

Combine gamma, interference and Z0 parts.

Colour factor. Answer.

Reimplemented from Sigma1Process.

void sigmaKin ( )

virtual

Calculate flavour-independent parts of cross section.

Evaluate sigmaHat(sHat), part independent of incoming flavour.

Common coupling factors.

Reset quantities to sum. Declare variables in loop.

Loop over all open Z'0 decay channels.

Contributions from three/four fermion generations, and optionally also from excited fermions.

Check that above threshold.

Couplings of gamma^*/Z^0/Z'^0 to final flavour

Combine couplings with kinematical factors.

Colour factor. Additionally secondary width for heavy particles.

Store sum of combinations.

Optional contribution from W+ W-.

Calculate prefactors for gamma/Z0/Z'0 cross section terms.

Optionally only keep some of gamma*, Z0 and Z' terms.

Reimplemented from SigmaProcess.

double weightDecay ( Event &  process, int  iResBeg, int  iResEnd  )

virtual

Evaluate weight for Z' decay angle.

Evaluate weight for gamma*/Z0/Z'0 decay angle.

Default values, in- and out-flavours in process.

Angular weight for outgoing fermion pair.

Couplings for in- and out-flavours.

Phase space factors. (One power of beta left out in formulae.)

Coefficients of angular expression.

Flip asymmetry for in-fermion + out-antifermion.

Reconstruct decay angle and weight for it.

Angular weight for Z' -> W+ W-.

Reconstruct decay angle and weight for it.

Angular weight for f + fbar -> Z' -> W+ + W- -> 4 fermions.

Order so that fbar(1) f(2) -> f'(3) fbar'(4) f"(5) fbar"(6). with f' fbar' from W- and f" fbar" from W+.

Decay distribution like in f fbar -> Z^* -> W+ W-.

Set up four-products and internal products.

tHat and uHat of fbar f -> W- W+, and their squared masses.

Kinematics combinations (norm(x) = |x|^2).

Couplings of incoming (anti)fermion. Combine with kinematics.

Decay distribution like in f fbar -> h^0 -> W+ W-.

Angular weight in top decay by standard routine.

Angular weight for fourth generation or excited fermions not implemented.

Done.

Reimplemented from SigmaProcess.

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

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