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Herwig 7.3.0
Herwig::MelikhovStechFormFactor Class Reference

The MelikhovStechFormFactor class is the implementation of the form factors from Phys. More...

#include <MelikhovStechFormFactor.h>

Inheritance diagram for Herwig::MelikhovStechFormFactor:

Public Member Functions

 MelikhovStechFormFactor ()
 The default constructor.
 
Form-Factors
virtual void ScalarScalarFormFactor (Energy2 q2, unsigned int iloc, int id0, int id1, Energy m0, Energy m1, Complex &f0, Complex &fp) const
 The form factor for the weak decay of a scalar to a scalar.
 
virtual void ScalarVectorFormFactor (Energy2 q2, unsigned int iloc, int id0, int id1, Energy m0, Energy m1, Complex &V, Complex &A0, Complex &A1, Complex &A2) const
 The form factor for the weak decay of a scalar to a vector.
 
virtual void ScalarScalarSigmaFormFactor (Energy2 q2, unsigned int iloc, int id0, int id1, Energy m0, Energy m1, Complex &fT) const
 The form factor for the weak penguin decay of a scalar meson to a scalar meson.
 
virtual void ScalarVectorSigmaFormFactor (Energy2 q2, unsigned int iloc, int id0, int id1, Energy m0, Energy m1, Complex &T1, Complex &T2, Complex &T3) const
 The form factor for the weak penguin decay of a scalar meson to a vector meson.
 
virtual void dataBaseOutput (ofstream &os, bool header, bool create) const
 Output the setup information for the particle database.
 
- Public Member Functions inherited from Herwig::ScalarFormFactor
 ScalarFormFactor ()
 Default constructor.
 
int formFactorNumber (int in, int out, bool &cc) const
 Find the location for a given pair of particle.
 
void particleID (unsigned int iloc, int &id0, int &id1) const
 Get the particle ids for an entry.
 
void formFactorInfo (unsigned int &iloc, int &ispin, int &spect, int &inquark, int &outquark) const
 Information on the form factor.
 
void formFactorInfo (int in, int out, int &ispin, int &spect, int &inquark, int &outquark) const
 Information on the form factor.
 
unsigned int numberOfFactors () const
 number of form factors
 
void persistentOutput (PersistentOStream &os) const
 Function used to write out object persistently.
 
void persistentInput (PersistentIStream &is, int version)
 Function used to read in object persistently.
 
virtual void ScalarTensorFormFactor (Energy2 q2, unsigned int iloc, int id0, int id1, Energy m0, Energy m1, complex< InvEnergy2 > &h, Complex &k, complex< InvEnergy2 > &bp, complex< InvEnergy2 > &bm) const
 The form factor for the weak decay of a scalar to a tensor.
 
- Public Member Functions inherited from ThePEG::Interfaced
virtual bool defaultInit ()
 
PPtr getParticle (PID) const
 
PDPtr getParticleData (PID) const
 
bool used () const
 
void useMe () const
 
tEGPtr generator () const
 
void persistentOutput (PersistentOStream &os) const
 
void persistentInput (PersistentIStream &is, int version)
 
PPtr getParticle (PID) const
 
PDPtr getParticleData (PID) const
 
bool used () const
 
void useMe () const
 
tEGPtr generator () const
 
- Public Member Functions inherited from ThePEG::InterfacedBase
string fullName () const
 
string name () const
 
string path () const
 
string comment () const
 
void setup (istream &is)
 
void update ()
 
void init ()
 
virtual bool preInitialize () const
 
void initrun ()
 
void finish ()
 
void touch ()
 
void reset ()
 
void clear ()
 
InitState state () const
 
bool locked () const
 
bool touched () const
 
virtual IBPtr fullclone () const
 
void persistentOutput (PersistentOStream &os) const
 
void persistentInput (PersistentIStream &is, int version)
 
virtual void debugme () const
 
void update ()
 
void init ()
 
virtual bool preInitialize () const
 
void initrun ()
 
void finish ()
 
void touch ()
 
void reset ()
 
void clear ()
 
InitState state () const
 
bool locked () const
 
bool touched () const
 
virtual IBPtr fullclone () const
 
- Public Member Functions inherited from ThePEG::Base
void debug () const
 
virtual void debugme () const
 
- Public Member Functions inherited from ThePEG::Pointer::ReferenceCounted
CounterType referenceCount () const
 
- Public Member Functions inherited from ThePEG::Named
 Named (const string &newName=string())
 
 Named (const Named &)=default
 
const string & name () const
 
bool operator== (const Named &other) const
 
bool operator< (const Named &other) const
 

Protected Member Functions

Clone Methods.
virtual IBPtr clone () const
 Make a simple clone of this object.
 
virtual IBPtr fullclone () const
 Make a clone of this object, possibly modifying the cloned object to make it sane.
 
- Protected Member Functions inherited from Herwig::ScalarFormFactor
void addFormFactor (int in, int out, int spin, int spect, int inquark, int outquark)
 Add a form factor to the list.
 
void initialModes (unsigned int nmodes)
 Set initial number of modes.
 
unsigned int initialModes () const
 Get the initial number of modes.
 
- Protected Member Functions inherited from ThePEG::Interfaced
void reporeg (IBPtr object, string name) const
 
bool setDefaultReference (PtrT &ptr, string classname, string objectname)
 
 Interfaced (const string &newName)
 
 Interfaced (const Interfaced &i)
 
void setGenerator (tEGPtr generator)
 
- Protected Member Functions inherited from ThePEG::InterfacedBase
virtual void readSetup (istream &is)
 
virtual void doupdate ()
 
virtual void doinit ()
 
virtual void doinitrun ()
 
virtual void dofinish ()
 
virtual IVector getReferences ()
 
virtual void rebind (const TranslationMap &)
 
virtual IBPtr clone () const=0
 
 InterfacedBase (string newName)
 
 InterfacedBase (const InterfacedBase &i)
 
virtual void readSetup (istream &is)
 
virtual void doupdate ()
 
virtual void doinit ()
 
virtual void doinitrun ()
 
virtual void dofinish ()
 
virtual IVector getReferences ()
 
virtual void rebind (const TranslationMap &)
 
- Protected Member Functions inherited from ThePEG::Pointer::ReferenceCounted
 ReferenceCounted (const ReferenceCounted &)
 
ReferenceCountedoperator= (const ReferenceCounted &)
 
- Protected Member Functions inherited from ThePEG::Named
const Namedoperator= (const Named &other)
 
const string & name (const string &newName)
 

Private Attributes

Parameters for the scalar to scalar form factors
vector< double > _fplus0
 The value of \(F_+(0)\) for the form factors.
 
vector< double > _sigma1fp
 The \(\sigma_1\) parameter for the \(F_+\) form factor.
 
vector< double > _sigma2fp
 The \(\sigma_2\) parameter for the \(F_+\) form factor.
 
vector< double > _f00
 The value of \(F_0(0)\) for the form factors.
 
vector< double > _sigma1f0
 The \(\sigma_1\) parameter for the \(F_0\) form factor.
 
vector< double > _sigma2f0
 The \(\sigma_2\) parameter for the \(F_0\) form factor.
 
vector< double > _fT0
 The value of \(F_T(0)\) for the form factors.
 
vector< double > _sigma1fT
 The \(\sigma_1\) parameter for the \(F_T\) form factor.
 
vector< double > _sigma2fT
 The \(\sigma_2\) parameter for the \(F_T\) form factor.
 
Parameters for the scalar to vector form factors
vector< double > _V0
 The value of \(V(0)\) for the form factors.
 
vector< double > _sigma1V0
 The \(\sigma_1\) parameter for the \(V_0\) form factor.
 
vector< double > _sigma2V0
 The \(\sigma_2\) parameter for the \(V_0\) form factor.
 
vector< double > _A00
 The value of \(A_0(0)\) for the form factors.
 
vector< double > _sigma1A0
 The \(\sigma_1\) parameter for the \(A_0\) form factor.
 
vector< double > _sigma2A0
 The \(\sigma_2\) parameter for the \(A_0\) form factor.
 
vector< double > _A10
 The value of \(A_1(0)\) for the form factors.
 
vector< double > _sigma1A1
 The \(\sigma_1\) parameter for the \(A_1\) form factor.
 
vector< double > _sigma2A1
 The \(\sigma_2\) parameter for the \(A_1\) form factor.
 
vector< double > _A20
 The value of \(A_2(0)\) for the form factors.
 
vector< double > _sigma1A2
 The \(\sigma_1\) parameter for the \(A_2\) form factor.
 
vector< double > _sigma2A2
 The \(\sigma_2\) parameter for the \(A_2\) form factor.
 
vector< double > _T10
 The value of \(T_1(0)\) for the form factors.
 
vector< double > _sigma1T1
 The \(\sigma_1\) parameter for the \(T_1\) form factor.
 
vector< double > _sigma2T1
 The \(\sigma_2\) parameter for the \(T_1\) form factor.
 
vector< double > _T20
 The value of \(T_2(0)\) for the form factors.
 
vector< double > _sigma1T2
 The \(\sigma_1\) parameter for the \(T_2\) form factor.
 
vector< double > _sigma2T2
 The \(\sigma_2\) parameter for the \(T_2\) form factor.
 
vector< double > _T30
 The value of \(T_3(0)\) for the form factors.
 
vector< double > _sigma1T3
 The \(\sigma_1\) parameter for the \(T_2\) form factor.
 
vector< double > _sigma2T3
 The \(\sigma_2\) parameter for the \(T_2\) form factor.
 
vector< Energy > _massP
 The scalar mass for the \(q^2\) dependence of the form factor.
 
vector< Energy > _massV
 The vector mass for the \(q^2\) dependence of the form factor.
 
double _thetaeta
 The \(\eta-\eta'\) mixing angle.
 

Functions used by the persistent I/O system.

void persistentOutput (PersistentOStream &os) const
 Function used to write out object persistently.
 
void persistentInput (PersistentIStream &is, int version)
 Function used to read in object persistently.
 
static void Init ()
 The standard Init function used to initialize the interfaces.
 

Standard Interfaced functions.

virtual void doinit ()
 Initialize this object after the setup phase before saving and EventGenerator to disk.
 
MelikhovStechFormFactoroperator= (const MelikhovStechFormFactor &)=delete
 The assignment operator is private and must never be called.
 

Additional Inherited Members

- Public Types inherited from ThePEG::InterfacedBase
enum  InitState
 
- Public Types inherited from ThePEG::Pointer::ReferenceCounted
typedef unsigned int CounterType
 
- Static Public Member Functions inherited from Herwig::ScalarFormFactor
static void Init ()
 Standard Init function used to initialize the interfaces.
 
- Static Public Member Functions inherited from ThePEG::Interfaced
static void Init ()
 
- Static Public Member Functions inherited from ThePEG::InterfacedBase
static void Init ()
 
- Static Public Member Functions inherited from ThePEG::Base
static void Init ()
 
- Public Attributes inherited from ThePEG::InterfacedBase
 initializing
 
 uninitialized
 
 initialized
 
 runready
 
- Public Attributes inherited from ThePEG::Pointer::ReferenceCounted
const unsigned long uniqueId
 
- Static Protected Member Functions inherited from ThePEG::Interfaced
static void registerRepository (IBPtr)
 
static void registerRepository (IBPtr, string newName)
 

Detailed Description

The MelikhovStechFormFactor class is the implementation of the form factors from Phys.

Rev. D62 014006 (2000).

See also
ScalarFormFactor

Definition at line 27 of file MelikhovStechFormFactor.h.

Member Function Documentation

◆ clone()

virtual IBPtr Herwig::MelikhovStechFormFactor::clone ( ) const
inlineprotectedvirtual

Make a simple clone of this object.

Returns
a pointer to the new object.

Reimplemented from Herwig::ScalarFormFactor.

Definition at line 148 of file MelikhovStechFormFactor.h.

◆ dataBaseOutput()

virtual void Herwig::MelikhovStechFormFactor::dataBaseOutput ( ofstream &  os,
bool  header,
bool  create 
) const
virtual

Output the setup information for the particle database.

Parameters
osThe stream to output the information to
headerWhether or not to output the information for MySQL
createWhether or not to add a statement creating the object

Reimplemented from Herwig::ScalarFormFactor.

◆ doinit()

virtual void Herwig::MelikhovStechFormFactor::doinit ( )
protectedvirtual

Initialize this object after the setup phase before saving and EventGenerator to disk.

Exceptions
InitExceptionif object could not be initialized properly.

Reimplemented from Herwig::ScalarFormFactor.

◆ fullclone()

virtual IBPtr Herwig::MelikhovStechFormFactor::fullclone ( ) const
inlineprotectedvirtual

Make a clone of this object, possibly modifying the cloned object to make it sane.

Returns
a pointer to the new object.

Reimplemented from Herwig::ScalarFormFactor.

Definition at line 154 of file MelikhovStechFormFactor.h.

◆ Init()

static void Herwig::MelikhovStechFormFactor::Init ( )
static

The standard Init function used to initialize the interfaces.

Called exactly once for each class by the class description system before the main function starts or when this class is dynamically loaded.

◆ operator=()

MelikhovStechFormFactor & Herwig::MelikhovStechFormFactor::operator= ( const MelikhovStechFormFactor )
privatedelete

The assignment operator is private and must never be called.

In fact, it should not even be implemented.

◆ persistentInput()

void Herwig::MelikhovStechFormFactor::persistentInput ( PersistentIStream is,
int  version 
)

Function used to read in object persistently.

Parameters
isthe persistent input stream read from.
versionthe version number of the object when written.

◆ persistentOutput()

void Herwig::MelikhovStechFormFactor::persistentOutput ( PersistentOStream os) const

Function used to write out object persistently.

Parameters
osthe persistent output stream written to.

◆ ScalarScalarFormFactor()

virtual void Herwig::MelikhovStechFormFactor::ScalarScalarFormFactor ( Energy2  q2,
unsigned int  iloc,
int  id0,
int  id1,
Energy  m0,
Energy  m1,
Complex f0,
Complex fp 
) const
virtual

The form factor for the weak decay of a scalar to a scalar.

Parameters
q2The scale \(q^2\).
ilocThe location in the form-factor list.
id0The PDG code of the incoming meson.
id1The PDG code of the outgoing meson.
m0The mass of the incoming meson.
m1The mass of the outgoing meson.
f0The form-factor \(f_0\).
fpThe form-factor \(f_+\).

Reimplemented from Herwig::ScalarFormFactor.

◆ ScalarScalarSigmaFormFactor()

virtual void Herwig::MelikhovStechFormFactor::ScalarScalarSigmaFormFactor ( Energy2  q2,
unsigned int  iloc,
int  id0,
int  id1,
Energy  m0,
Energy  m1,
Complex fT 
) const
virtual

The form factor for the weak penguin decay of a scalar meson to a scalar meson.

This method is virtual and must be implemented in classes inheriting from this which include scalar to scalar penguin form factors.

Parameters
q2The scale \(q^2\).
ilocThe location in the form factor list.
id0The PDG code of the incoming meson.
id1The PDG code of the outgoing meson.
m0The mass of the incoming meson.
m1The mass of the outgoing meson.
fTThe form factor \(f_T\).

Reimplemented from Herwig::ScalarFormFactor.

◆ ScalarVectorFormFactor()

virtual void Herwig::MelikhovStechFormFactor::ScalarVectorFormFactor ( Energy2  q2,
unsigned int  iloc,
int  id0,
int  id1,
Energy  m0,
Energy  m1,
Complex V,
Complex A0,
Complex A1,
Complex A2 
) const
virtual

The form factor for the weak decay of a scalar to a vector.

Parameters
q2The scale \(q^2\).
ilocThe location in the form-factor list.
id0The PDG code of the incoming meson.
id1The PDG code of the outgoing meson.
m0The mass of the incoming meson.
m1The mass of the outgoing meson.
VThe form-factor \(V\)
A0The form-factor \(A_0\)
A1The form-factor \(A_1\)
A2The form-factor \(A_2\)

Reimplemented from Herwig::ScalarFormFactor.

◆ ScalarVectorSigmaFormFactor()

virtual void Herwig::MelikhovStechFormFactor::ScalarVectorSigmaFormFactor ( Energy2  q2,
unsigned int  iloc,
int  id0,
int  id1,
Energy  m0,
Energy  m1,
Complex T1,
Complex T2,
Complex T3 
) const
virtual

The form factor for the weak penguin decay of a scalar meson to a vector meson.

This method is virtual and must be implemented in classes inheriting from this which include scalar to vector penguin form factors.

Parameters
q2The scale \(q^2\).
ilocThe location in the form factor list.
id0The PDG code of the incoming meson.
id1The PDG code of the outgoing meson.
m0The mass of the incoming meson.
m1The mass of the outgoing meson.
T1The form factor \(T_1\).
T2The form factor \(T_2\).
T3The form factor \(T_3\).

Reimplemented from Herwig::ScalarFormFactor.

Member Data Documentation

◆ _A00

vector<double> Herwig::MelikhovStechFormFactor::_A00
private

The value of \(A_0(0)\) for the form factors.

Definition at line 250 of file MelikhovStechFormFactor.h.

◆ _A10

vector<double> Herwig::MelikhovStechFormFactor::_A10
private

The value of \(A_1(0)\) for the form factors.

Definition at line 265 of file MelikhovStechFormFactor.h.

◆ _A20

vector<double> Herwig::MelikhovStechFormFactor::_A20
private

The value of \(A_2(0)\) for the form factors.

Definition at line 280 of file MelikhovStechFormFactor.h.

◆ _f00

vector<double> Herwig::MelikhovStechFormFactor::_f00
private

The value of \(F_0(0)\) for the form factors.

Definition at line 201 of file MelikhovStechFormFactor.h.

◆ _fplus0

vector<double> Herwig::MelikhovStechFormFactor::_fplus0
private

The value of \(F_+(0)\) for the form factors.

Definition at line 186 of file MelikhovStechFormFactor.h.

◆ _fT0

vector<double> Herwig::MelikhovStechFormFactor::_fT0
private

The value of \(F_T(0)\) for the form factors.

Definition at line 216 of file MelikhovStechFormFactor.h.

◆ _massP

vector<Energy> Herwig::MelikhovStechFormFactor::_massP
private

The scalar mass for the \(q^2\) dependence of the form factor.

Definition at line 341 of file MelikhovStechFormFactor.h.

◆ _massV

vector<Energy> Herwig::MelikhovStechFormFactor::_massV
private

The vector mass for the \(q^2\) dependence of the form factor.

Definition at line 346 of file MelikhovStechFormFactor.h.

◆ _sigma1A0

vector<double> Herwig::MelikhovStechFormFactor::_sigma1A0
private

The \(\sigma_1\) parameter for the \(A_0\) form factor.

Definition at line 255 of file MelikhovStechFormFactor.h.

◆ _sigma1A1

vector<double> Herwig::MelikhovStechFormFactor::_sigma1A1
private

The \(\sigma_1\) parameter for the \(A_1\) form factor.

Definition at line 270 of file MelikhovStechFormFactor.h.

◆ _sigma1A2

vector<double> Herwig::MelikhovStechFormFactor::_sigma1A2
private

The \(\sigma_1\) parameter for the \(A_2\) form factor.

Definition at line 285 of file MelikhovStechFormFactor.h.

◆ _sigma1f0

vector<double> Herwig::MelikhovStechFormFactor::_sigma1f0
private

The \(\sigma_1\) parameter for the \(F_0\) form factor.

Definition at line 206 of file MelikhovStechFormFactor.h.

◆ _sigma1fp

vector<double> Herwig::MelikhovStechFormFactor::_sigma1fp
private

The \(\sigma_1\) parameter for the \(F_+\) form factor.

Definition at line 191 of file MelikhovStechFormFactor.h.

◆ _sigma1fT

vector<double> Herwig::MelikhovStechFormFactor::_sigma1fT
private

The \(\sigma_1\) parameter for the \(F_T\) form factor.

Definition at line 221 of file MelikhovStechFormFactor.h.

◆ _sigma1T1

vector<double> Herwig::MelikhovStechFormFactor::_sigma1T1
private

The \(\sigma_1\) parameter for the \(T_1\) form factor.

Definition at line 300 of file MelikhovStechFormFactor.h.

◆ _sigma1T2

vector<double> Herwig::MelikhovStechFormFactor::_sigma1T2
private

The \(\sigma_1\) parameter for the \(T_2\) form factor.

Definition at line 315 of file MelikhovStechFormFactor.h.

◆ _sigma1T3

vector<double> Herwig::MelikhovStechFormFactor::_sigma1T3
private

The \(\sigma_1\) parameter for the \(T_2\) form factor.

Definition at line 330 of file MelikhovStechFormFactor.h.

◆ _sigma1V0

vector<double> Herwig::MelikhovStechFormFactor::_sigma1V0
private

The \(\sigma_1\) parameter for the \(V_0\) form factor.

Definition at line 240 of file MelikhovStechFormFactor.h.

◆ _sigma2A0

vector<double> Herwig::MelikhovStechFormFactor::_sigma2A0
private

The \(\sigma_2\) parameter for the \(A_0\) form factor.

Definition at line 260 of file MelikhovStechFormFactor.h.

◆ _sigma2A1

vector<double> Herwig::MelikhovStechFormFactor::_sigma2A1
private

The \(\sigma_2\) parameter for the \(A_1\) form factor.

Definition at line 275 of file MelikhovStechFormFactor.h.

◆ _sigma2A2

vector<double> Herwig::MelikhovStechFormFactor::_sigma2A2
private

The \(\sigma_2\) parameter for the \(A_2\) form factor.

Definition at line 290 of file MelikhovStechFormFactor.h.

◆ _sigma2f0

vector<double> Herwig::MelikhovStechFormFactor::_sigma2f0
private

The \(\sigma_2\) parameter for the \(F_0\) form factor.

Definition at line 211 of file MelikhovStechFormFactor.h.

◆ _sigma2fp

vector<double> Herwig::MelikhovStechFormFactor::_sigma2fp
private

The \(\sigma_2\) parameter for the \(F_+\) form factor.

Definition at line 196 of file MelikhovStechFormFactor.h.

◆ _sigma2fT

vector<double> Herwig::MelikhovStechFormFactor::_sigma2fT
private

The \(\sigma_2\) parameter for the \(F_T\) form factor.

Definition at line 226 of file MelikhovStechFormFactor.h.

◆ _sigma2T1

vector<double> Herwig::MelikhovStechFormFactor::_sigma2T1
private

The \(\sigma_2\) parameter for the \(T_1\) form factor.

Definition at line 305 of file MelikhovStechFormFactor.h.

◆ _sigma2T2

vector<double> Herwig::MelikhovStechFormFactor::_sigma2T2
private

The \(\sigma_2\) parameter for the \(T_2\) form factor.

Definition at line 320 of file MelikhovStechFormFactor.h.

◆ _sigma2T3

vector<double> Herwig::MelikhovStechFormFactor::_sigma2T3
private

The \(\sigma_2\) parameter for the \(T_2\) form factor.

Definition at line 335 of file MelikhovStechFormFactor.h.

◆ _sigma2V0

vector<double> Herwig::MelikhovStechFormFactor::_sigma2V0
private

The \(\sigma_2\) parameter for the \(V_0\) form factor.

Definition at line 245 of file MelikhovStechFormFactor.h.

◆ _T10

vector<double> Herwig::MelikhovStechFormFactor::_T10
private

The value of \(T_1(0)\) for the form factors.

Definition at line 295 of file MelikhovStechFormFactor.h.

◆ _T20

vector<double> Herwig::MelikhovStechFormFactor::_T20
private

The value of \(T_2(0)\) for the form factors.

Definition at line 310 of file MelikhovStechFormFactor.h.

◆ _T30

vector<double> Herwig::MelikhovStechFormFactor::_T30
private

The value of \(T_3(0)\) for the form factors.

Definition at line 325 of file MelikhovStechFormFactor.h.

◆ _thetaeta

double Herwig::MelikhovStechFormFactor::_thetaeta
private

The \(\eta-\eta'\) mixing angle.

Definition at line 351 of file MelikhovStechFormFactor.h.

◆ _V0

vector<double> Herwig::MelikhovStechFormFactor::_V0
private

The value of \(V(0)\) for the form factors.

Definition at line 235 of file MelikhovStechFormFactor.h.


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