a Code for the Combination of Indirect and Direct Constraints on High Energy Physics Models Logo
Public Member Functions | List of all members
unitarity00eveM_Z2 Class Reference

Minus-sign eigenvalue of the even 00 block. More...

#include <GeneralTHDMZ2Unitarity.h>

+ Inheritance diagram for unitarity00eveM_Z2:

Detailed Description

Minus-sign eigenvalue of the even 00 block.

Definition at line 76 of file GeneralTHDMZ2Unitarity.h.

Public Member Functions

double computeThValue ()
 
 unitarity00eveM_Z2 (const StandardModel &SM_i)
 unitarity00eveM_Z2 constructor. More...
 
- Public Member Functions inherited from unitarity_Z2
 unitarity_Z2 (const StandardModel &SM_i)
 unitarity_Z2 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 StandardModelgetModel ()
 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...
 

Additional Inherited Members

- Protected Member Functions inherited from unitarity_Z2
void computeZ2_at_Q ()
 
- Protected Attributes inherited from unitarity_Z2
GeneralTHDMZ2Runner myGTHDM
 
gslpp::matrix< double > myZ2_at_Q
 
- 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 StandardModelSM
 A reference to an object of StandardMode class. More...
 

Constructor & Destructor Documentation

◆ unitarity00eveM_Z2()

unitarity00eveM_Z2::unitarity00eveM_Z2 ( const StandardModel SM_i)

unitarity00eveM_Z2 constructor.

Definition at line 69 of file GeneralTHDMZ2Unitarity.cpp.

70: unitarity_Z2(SM_i)
71{}
unitarity_Z2::unitarity_Z2
unitarity_Z2(const StandardModel &SM_i)
unitarity_Z2 constructor.
Definition: GeneralTHDMZ2Unitarity.cpp:11

Member Function Documentation

◆ computeThValue()

double unitarity00eveM_Z2::computeThValue ( )
virtual
Returns
\(a^{\text{even}}_{00-}\)

Implements ThObservable.

Definition at line 73 of file GeneralTHDMZ2Unitarity.cpp.

74{
75 gslpp::complex i = gslpp::complex::i();
76
77 computeZ2_at_Q();
78
79 double la1Q = myZ2_at_Q(0, 0);
80 double la2Q = myZ2_at_Q(0, 1);
81 double la3Q = myZ2_at_Q(0, 2);
82 double la4Q = myZ2_at_Q(0, 3);
83 double la5Q = myZ2_at_Q(0, 4);
84
85 double YtQ = myZ2_at_Q(1, 0);
86 double Yb1Q = myZ2_at_Q(1, 1);
87 double Yb2Q = myZ2_at_Q(1, 2);
88 double Ytau1Q = myZ2_at_Q(1, 3);
89 double Ytau2Q = myZ2_at_Q(1, 4);
90
91 double WFRc1 = myZ2_at_Q(2, 0);
92 double WFRc2 = myZ2_at_Q(2, 1);
93
94 double beta1 = myGTHDM.betalambda1_Z2(la1Q, la3Q, la4Q, la5Q, Yb1Q, Ytau1Q);
95 double beta2 = myGTHDM.betalambda2_Z2(la2Q, la3Q, la4Q, la5Q, YtQ, Yb2Q, Ytau2Q);
96 double beta3 = myGTHDM.betalambda3_Z2(la1Q, la2Q, la3Q, la4Q, la5Q, YtQ, Yb1Q, Yb2Q, Ytau1Q, Ytau2Q);
97 double beta4 = myGTHDM.betalambda4_Z2(la1Q, la2Q, la3Q, la4Q, la5Q, YtQ, Yb1Q, Yb2Q, Ytau1Q, Ytau2Q);
98
99 gslpp::complex B1 = -3.*la1Q + 9.*beta1/2. + (i*M_PI - 1.)*(9.*la1Q*la1Q +
100 (2.*la3Q + la4Q)*(2.*la3Q + la4Q))/16./M_PI/M_PI -
101 3.*la1Q*WFRc1/32./M_PI/M_PI;
102
103 gslpp::complex B2 = -3.*la2Q + 9.*beta2/2. + (i*M_PI - 1.)*(9.*la2Q*la2Q +
104 (2.*la3Q + la4Q)*(2.*la3Q + la4Q))/16./M_PI/M_PI -
105 3.*la2Q*(-WFRc1 + 2.*WFRc2)/32./M_PI/M_PI;
106
107 gslpp::complex B3 = -2.*la3Q - la4Q + 3.*(2.*beta3 + beta4)/2. + 3.*(i*M_PI -
108 1.)*(la1Q + la2Q)*(2.*la3Q + la4Q)/16./M_PI/M_PI -
109 (2.*la3Q + la4Q)*WFRc2/32./M_PI/M_PI;
110
111 return ((B1 + B2 - sqrt((B1 - B2)*(B1 - B2) + 4.*B3*B3))/32./M_PI - i/2.).abs();
112}
GeneralTHDMZ2Runner::betalambda2_Z2
double betalambda2_Z2(double la2, double la3, double la4, double la5, double Yt, double Yb2, double Ytau2)
The beta function of appearing in unitarity conditions.
Definition: GeneralTHDMZ2Runner.h:52
GeneralTHDMZ2Runner::betalambda3_Z2
double betalambda3_Z2(double la1, double la2, double la3, double la4, double la5, double Yt, double Yb1, double Yb2, double Ytau1, double Ytau2)
The beta function of appearing in unitarity conditions.
Definition: GeneralTHDMZ2Runner.h:63
GeneralTHDMZ2Runner::betalambda1_Z2
double betalambda1_Z2(double la1, double la3, double la4, double la5, double Yb1, double Ytau1)
The beta function of appearing in unitarity conditions.
Definition: GeneralTHDMZ2Runner.h:41
GeneralTHDMZ2Runner::betalambda4_Z2
double betalambda4_Z2(double la1, double la2, double la3, double la4, double la5, double Yt, double Yb1, double Yb2, double Ytau1, double Ytau2)
The beta function of appearing in unitarity conditions.
Definition: GeneralTHDMZ2Runner.h:74
unitarity_Z2::computeZ2_at_Q
void computeZ2_at_Q()
Definition: GeneralTHDMZ2Unitarity.cpp:15
unitarity_Z2::myZ2_at_Q
gslpp::matrix< double > myZ2_at_Q
Definition: GeneralTHDMZ2Unitarity.h:43
unitarity_Z2::myGTHDM
GeneralTHDMZ2Runner myGTHDM
Definition: GeneralTHDMZ2Unitarity.h:41
The documentation for this class was generated from the following files: