NLO over LO ratio for the second Z2-odd 00 eigenvalue (corresponding to unitarityNLOev3).
More...
#include <unitarity.h>
NLO over LO ratio for the second Z2-odd 00 eigenvalue (corresponding to unitarityNLOev3).
Definition at line 1191 of file unitarity.h.
◆ unitarityRp4()
◆ computeThValue()
| double unitarityRp4::computeThValue |
( |
| ) |
|
|
virtual |
- Returns
- \(|a^{\text{odd,NLO}}_{00-}/a^{\text{odd,LO}}_{00-}|\)
Implements ThObservable.
Definition at line 2147 of file unitarity.cpp.
2162 double betalambda3 = 3.0*la1Q*la3Q + 3.0*la2Q*la3Q + 2.0*la3Q*la3Q + la1Q*la4Q + la2Q*la4Q + la4Q*la4Q + la5Q*la5Q
2163 + 3.0*la3Q*Yb1Q*Yb1Q + 3.0*la3Q*Yb2Q*Yb2Q + la3Q*Ytau1Q*Ytau1Q + la3Q*Ytau2Q*Ytau2Q + 3.0*la3Q*YtQ*YtQ
2164 - 6.0*Yb1Q*Yb1Q*(Yb2Q*Yb2Q + YtQ*YtQ) - 2.0*Ytau1Q*Ytau1Q*Ytau2Q*Ytau2Q;
2165 double betalambda4 = la1Q*la4Q + la2Q*la4Q + 4.0*la3Q*la4Q + 2.0*la4Q*la4Q + 4.0*la5Q*la5Q
2166 + 3.0*la4Q*Yb1Q*Yb1Q + 3.0*la4Q*Yb2Q*Yb2Q + la4Q*Ytau1Q*Ytau1Q + la4Q*Ytau2Q*Ytau2Q + 3.0*la4Q*YtQ*YtQ
2167 - 2.0*Ytau1Q*Ytau1Q*Ytau2Q*Ytau2Q - 6.0*Yb1Q*Yb1Q*(Yb2Q*Yb2Q - YtQ*YtQ);
2168 double betalambda5 = la5Q*(la1Q + la2Q + 4.0*la3Q + 6.0*la4Q)
2169 + 3.0*la5Q*Yb1Q*Yb1Q + la5Q*Ytau1Q*Ytau1Q + la5Q*(3.0*Yb2Q*Yb2Q + Ytau2Q*Ytau2Q + 3.0*YtQ*YtQ)
2170 - 6.0*Yb1Q*Yb1Q*Yb2Q*Yb2Q - 2.0*Ytau1Q*Ytau1Q*Ytau2Q*Ytau2Q;
2172 double uniNLO4a = -(la3Q+2.0*la4Q)/(16.0*M_PI);
2173 double uniNLO4b = 3.0*(betalambda3+2.0*betalambda4)/(256.0*M_PI*M_PI*M_PI);
2175 gslpp::complex uniNLO4d = -(la3Q+la4Q+la5Q)/(512.0*M_PI*M_PI*M_PI) * WFRc2;
2177 double uniNLO5a = -3.0*la5Q/(16.0*M_PI);
2178 double uniNLO5b = 9.0*betalambda5/(256.0*M_PI*M_PI*M_PI);
2180 gslpp::complex uniNLO5d = -(la4Q+2.0*la5Q)/(512.0*M_PI*M_PI*M_PI) * WFRc2;
2186 double a0LO = uniNLO4a-uniNLO5a;
2187 if(fabs(a0LO)>Rpeps)
2189 Rp = ((uniA-uniC)-a0LO).
abs()/fabs(a0LO);
◆ myTHDM
| const THDM& unitarityRp4::myTHDM |
|
private |
The documentation for this class was generated from the following files:
v1.0
Inheritance diagram for unitarityRp4:
1.8.16 