Detailed Description

Definition at line 1346 of file unitarity.h.

Public Member Functions
double	computeThValue ()

	unitarityRp12 (const StandardModel &SM_i)
	unitarityRp12 constructor. More...

Public Member Functions inherited from ThObservable
double	getBinMax ()
	A get method to get the maximum value of the bin. More...

double	getBinMin ()
	A get method to get the minimum value of the bin. More...

const StandardModel &	getModel ()
	A get method to get the model. More...

const std::vector< std::string >	getParametersForObservable ()
	A get method to get the parameters for the specific observable. More...

void	setBinMax (double max)
	A set method to set the maximum value of the bin. More...

void	setBinMin (double min)
	A set method to set the minimum value of the bin. More...

void	setParametersForObservable (std::vector< std::string > parametersForObservable_i)
	A set method to get the parameters for the specific observable. More...

	ThObservable (const StandardModel &SM_i)
	Constructor. More...

	ThObservable (const ThObservable &orig)
	The copy constructor. More...

virtual	~ThObservable ()
	The default destructor. More...

Private Attributes
const THDM &	myTHDM

Additional Inherited Members
Protected Attributes inherited from ThObservable
double	max
	the bin maximum. More...

double	min
	The bin minimum. More...

std::vector< std::string >	parametersForObservable
	a vector of parameter namesfor the specific observable More...

const StandardModel &	SM
	A reference to an object of StandardMode class. More...

Constructor & Destructor Documentation

◆ unitarityRp12()

unitarityRp12::unitarityRp12 ( const StandardModel & SM_i )

unitarityRp12 constructor.

Definition at line 2579 of file unitarity.cpp.

2580 : ThObservable(SM_i),myTHDM(static_cast<const THDM&> (SM_i))

2581 {}

Member Function Documentation

◆ computeThValue()

double unitarityRp12::computeThValue ( )

virtual

Implements ThObservable.

Definition at line 2583 of file unitarity.cpp.

 {
     double YtQ = myTHDM.getMyTHDMCache()->Ytop_at_Q;
     double Yb1Q = myTHDM.getMyTHDMCache()->Ybottom1_at_Q;
     double Yb2Q = myTHDM.getMyTHDMCache()->Ybottom2_at_Q;
     double Ytau1Q = myTHDM.getMyTHDMCache()->Ytau1_at_Q;
     double Ytau2Q = myTHDM.getMyTHDMCache()->Ytau2_at_Q;
     double la1Q = myTHDM.getMyTHDMCache()->lambda1_at_Q;
     double la2Q = myTHDM.getMyTHDMCache()->lambda2_at_Q;
     double la3Q = myTHDM.getMyTHDMCache()->lambda3_at_Q;
     double la4Q = myTHDM.getMyTHDMCache()->lambda4_at_Q;
     double la5Q = myTHDM.getMyTHDMCache()->lambda5_at_Q;
     double WFRc2 = myTHDM.getMyTHDMCache()->WFRcomb2;
     double WFRc3 = myTHDM.getMyTHDMCache()->WFRcomb3;
     double Rpeps = myTHDM.getMyTHDMCache()->Rpeps;
  
     double betalambda3 = 3.0*la1Q*la3Q + 3.0*la2Q*la3Q + 2.0*la3Q*la3Q + la1Q*la4Q + la2Q*la4Q + la4Q*la4Q + la5Q*la5Q
                           + 3.0*la3Q*Yb1Q*Yb1Q + 3.0*la3Q*Yb2Q*Yb2Q + la3Q*Ytau1Q*Ytau1Q + la3Q*Ytau2Q*Ytau2Q + 3.0*la3Q*YtQ*YtQ
                           - 6.0*Yb1Q*Yb1Q*(Yb2Q*Yb2Q + YtQ*YtQ) - 2.0*Ytau1Q*Ytau1Q*Ytau2Q*Ytau2Q;
     double betalambda5 = la5Q*(la1Q + la2Q + 4.0*la3Q + 6.0*la4Q)
                           + 3.0*la5Q*Yb1Q*Yb1Q + la5Q*Ytau1Q*Ytau1Q + la5Q*(3.0*Yb2Q*Yb2Q + Ytau2Q*Ytau2Q + 3.0*YtQ*YtQ)
                           - 6.0*Yb1Q*Yb1Q*Yb2Q*Yb2Q - 2.0*Ytau1Q*Ytau1Q*Ytau2Q*Ytau2Q;
  
     double uniNLO12a = -la3Q/(16.0*M_PI);
     double uniNLO12b = 3.0*betalambda3/(256.0*M_PI*M_PI*M_PI);
     gslpp::complex uniNLO12c = (gslpp::complex::i()*M_PI-1.0)*(la3Q*la3Q+la5Q*la5Q)/(256.0*M_PI*M_PI*M_PI);
     gslpp::complex uniNLO12d = -la3Q/(512.0*M_PI*M_PI*M_PI) * WFRc3;
  
     double uniNLO13a = -la5Q/(16.0*M_PI);
     double uniNLO13b = 3.0*betalambda5/(256.0*M_PI*M_PI*M_PI);
     gslpp::complex uniNLO13c = (gslpp::complex::i()*M_PI-1.0)*la3Q*la5Q/(128.0*M_PI*M_PI*M_PI);
     gslpp::complex uniNLO13d = -la4Q/(512.0*M_PI*M_PI*M_PI) * WFRc2;
  
     gslpp::complex uniA=uniNLO12a+uniNLO12b+uniNLO12c+uniNLO12d;
     gslpp::complex uniC=uniNLO13a+uniNLO13b+uniNLO13c+uniNLO13d;
  
     double Rp=0.01;
     double a0LO = uniNLO12a-uniNLO13a;
     if(fabs(a0LO)>Rpeps)
     {
         Rp = ((uniA-uniC)-a0LO).abs()/fabs(a0LO);
     }
  
     return Rp;
 }

Member Data Documentation

◆ myTHDM

const THDM& unitarityRp12::myTHDM

private

Definition at line 1356 of file unitarity.h.

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