DeltaU Class Reference

#include <STU.h>

Inheritance diagram for DeltaU:
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Collaboration diagram for DeltaU:
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Detailed Description

Definition at line 83 of file STU.h.

Public Member Functions

double computeThValue ()
 
 DeltaU (const StandardModel &SM_i)
 THDM contribution to \(U\). More...
 
- Public Member Functions inherited from STU
double F (const double m02, const double m12) const
 function F(m02,m12) used for THDM. Remember that this function is defined for THDM while for SUSY we have a multiplicative factor 2. More...
 
 STU (const StandardModel &SM_i)
 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...
 
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...
 
 ThObservable (const StandardModel &SM_i)
 Constructor. More...
 
 ThObservable (const ThObservable &orig)
 The copy constructor. More...
 
virtual ~ThObservable ()
 The default destructor. More...
 

Protected Attributes

DeltaSmyDeltaS
 
- Protected Attributes inherited from STU
THDMcachemycache
 
- Protected Attributes inherited from ThObservable
double max
 the bin maximum. More...
 
double min
 The bin minimum. More...
 
const StandardModelSM
 A reference to an object of StandardMode class. More...
 

Additional Inherited Members

- Public Attributes inherited from STU
const THDMmyTHDM
 

Constructor & Destructor Documentation

DeltaU::DeltaU ( const StandardModel SM_i)

THDM contribution to \(U\).

Constructor for DeltaU.

Definition at line 119 of file STU.cpp.

120 : STU(SM_i)
121 {
122  myDeltaS = new DeltaS(SM_i);
123 }
STU(const StandardModel &SM_i)
Constructor.
Definition: STU.cpp:11
DeltaS * myDeltaS
Definition: STU.h:98
Definition: STU.h:53

Member Function Documentation

double DeltaU::computeThValue ( )
virtual
Returns
\(\Delta U\)

Reimplemented from STU.

Definition at line 125 of file STU.cpp.

126 {
127  double mHl=myTHDM->getMHl();
128  double mHl2=mHl*mHl;
129  double mHh2=myTHDM->getmHh2();
130  double mA2=myTHDM->getmA2();
131  double mHp2=myTHDM->getmHp2();
132  double sin_ba=myTHDM->getsin_ba();
133  double sin2_ba = sin_ba*sin_ba;
134  double cos2_ba = 1. - sin2_ba;
135  double MZ=myTHDM->getMz();
136  double MZ2 = MZ*MZ;
137  double MW = myTHDM->Mw();
138  double MW2 = MW*MW;
139 
140  gslpp::complex B00prime_MZ2_MW2_mA2_mHp2;
141  gslpp::complex B00prime_MZ2_MW2_mHp2_mHp2;
142  gslpp::complex B00prime_MZ2_MW2_mHh2_mHp2;
143  gslpp::complex B00prime_MZ2_MW2_mHl2_mHp2;
144  gslpp::complex B00prime_MZ2_MW2_MW2_mHh2;
145  gslpp::complex B00prime_MZ2_MW2_MW2_mHl2;
146  gslpp::complex B0prime_MZ2_MW2_MW2_mHh2;
147  gslpp::complex B0prime_MZ2_MW2_MW2_mHl2;
148 
149  B00prime_MZ2_MW2_mA2_mHp2 = - mycache->B00_MZ2_MW2_mA2_mHp2(MZ2,MW2,mA2,mHp2) + mycache->B00_MZ2_0_mA2_mHp2(MZ2,mA2,mHp2);
150  B00prime_MZ2_MW2_mHp2_mHp2 = - mycache->B00_MZ2_MW2_mHp2_mHp2(MZ2,MW2,mHp2) + mycache->B00_MZ2_0_mHp2_mHp2(MZ2,mHp2);
151  B00prime_MZ2_MW2_mHh2_mHp2 = - mycache->B00_MZ2_MW2_mHh2_mHp2(MZ2,MW2,mHh2,mHp2) + mycache->B00_MZ2_0_mHh2_mHp2(MZ2,mHh2,mHp2);
152  B00prime_MZ2_MW2_mHl2_mHp2 = - mycache->B00_MZ2_MW2_mHl2_mHp2(MZ2,MW2,mHl2,mHp2) + mycache->B00_MZ2_0_mHl2_mHp2(MZ2,mHl2,mHp2);
153  B00prime_MZ2_MW2_MW2_mHh2 = - mycache->B00_MZ2_MW2_MW2_mHh2(MZ2,MW2,mHh2) + mycache->B00_MZ2_0_MW2_mHh2(MZ2,MW2,mHh2);
154  B00prime_MZ2_MW2_MW2_mHl2 = - mycache->B00_MZ2_MW2_MW2_mHl2(MZ2,MW2,mHl2) + mycache->B00_MZ2_0_MW2_mHl2(MZ2,MW2,mHl2);
155  B0prime_MZ2_MW2_MW2_mHh2 = mycache->B0_MZ2_MW2_MW2_mHh2(MZ2,MW2,mHh2) - mycache->B0_MZ2_0_MW2_mHh2(MZ2,MW2,mHh2);
156  B0prime_MZ2_MW2_MW2_mHl2 = mycache->B0_MZ2_MW2_MW2_mHl2(MZ2,MW2,mHl2) - mycache->B0_MZ2_0_MW2_mHl2(MZ2,MW2,mHl2);
157 
158  return - myDeltaS->computeThValue() + 1. / M_PI / MZ2 * (B00prime_MZ2_MW2_mA2_mHp2.real()
159  - 2. * B00prime_MZ2_MW2_mHp2_mHp2.real() + sin2_ba * B00prime_MZ2_MW2_mHh2_mHp2.real()
160  + cos2_ba * (B00prime_MZ2_MW2_mHl2_mHp2.real() + B00prime_MZ2_MW2_MW2_mHh2.real()
161  - B00prime_MZ2_MW2_MW2_mHl2.real() - MW2 * B0prime_MZ2_MW2_MW2_mHh2.real()
162  + MW2 * B0prime_MZ2_MW2_MW2_mHl2.real()));
163 }
gslpp::complex B0_MZ2_MW2_MW2_mHh2(const double MZ2, const double MW2, const double mHh2) const
Definition: THDMcache.cpp:150
gslpp::complex B0_MZ2_0_MW2_mHh2(const double MZ2, const double MW2, const double mHh2) const
Definition: THDMcache.cpp:94
gslpp::complex B00_MZ2_0_mHh2_mHp2(const double MZ2, const double mHh2, const double mHp2) const
Definition: THDMcache.cpp:236
double computeThValue()
THDM contribution to .
Definition: STU.cpp:47
gslpp::complex B00_MZ2_0_MW2_mHl2(const double MZ2, const double MW2, const double mHl2) const
Definition: THDMcache.cpp:306
double getsin_ba() const
Definition: THDM.h:206
gslpp::complex B0_MZ2_0_MW2_mHl2(const double MZ2, const double MW2, const double mHl2) const
Definition: THDMcache.cpp:108
gslpp::complex B00_MZ2_0_mHl2_mHp2(const double MZ2, const double mHl2, const double mHp2) const
Definition: THDMcache.cpp:264
const double & real() const
const THDM * myTHDM
Definition: STU.h:37
double getmHp2() const
Definition: THDM.h:262
gslpp::complex B00_MZ2_0_mA2_mHp2(const double MZ2, const double mA2, const double mHp2) const
Definition: THDMcache.cpp:208
gslpp::complex B00_MZ2_MW2_mHp2_mHp2(const double MZ2, const double MW2, const double mHp2) const
Definition: THDMcache.cpp:390
double getmHh2() const
Definition: THDM.h:230
gslpp::complex B00_MZ2_0_mHp2_mHp2(const double MZ2, const double mHp2) const
Definition: THDMcache.cpp:278
virtual double Mw() const
The SM prediction for the -boson mass in the on-shell scheme, .
double getmA2() const
Definition: THDM.h:246
gslpp::complex B0_MZ2_MW2_MW2_mHl2(const double MZ2, const double MW2, const double mHl2) const
Definition: THDMcache.cpp:164
gslpp::complex B00_MZ2_MW2_MW2_mHh2(const double MZ2, const double MW2, const double mHh2) const
Definition: THDMcache.cpp:404
gslpp::complex B00_MZ2_0_MW2_mHh2(const double MZ2, const double MW2, const double mHh2) const
Definition: THDMcache.cpp:292
gslpp::complex B00_MZ2_MW2_MW2_mHl2(const double MZ2, const double MW2, const double mHl2) const
Definition: THDMcache.cpp:418
DeltaS * myDeltaS
Definition: STU.h:98
THDMcache * mycache
Definition: STU.h:49
gslpp::complex B00_MZ2_MW2_mHh2_mHp2(const double MZ2, const double MW2, const double mHh2, const double mHp2) const
Definition: THDMcache.cpp:362
A class for defining operations on and functions of complex numbers.
Definition: gslpp_complex.h:35
double getMHl() const
A get method to retrieve the Higgs mass .
gslpp::complex B00_MZ2_MW2_mHl2_mHp2(const double MZ2, const double MW2, const double mHl2, const double mHp2) const
Definition: THDMcache.cpp:376
double getMz() const
A get method to access the mass of the boson .
gslpp::complex B00_MZ2_MW2_mA2_mHp2(const double MZ2, const double MW2, const double mA2, const double mHp2) const
Definition: THDMcache.cpp:348

Member Data Documentation

DeltaS* DeltaU::myDeltaS
protected

Definition at line 98 of file STU.h.


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