9 #ifndef Pythia8_SusyCouplings_H
10 #define Pythia8_SusyCouplings_H
12 #include "PythiaComplex.h"
14 #include "StandardModel.h"
15 #include "SusyLesHouches.h"
31 CoupSUSY() {isInit=
false; isNMSSM =
false; isSUSY=
true;}
41 double mWpole, wWpole, mZpole, wZpole;
45 double mW, mZ, sin2W, sinW, cosW;
48 double tanb, cosb, sinb;
51 double muHiggs, alphaHiggs, mAHiggs;
54 complex LsddG[7][4], RsddG[7][4];
55 complex LsuuG[7][4], RsuuG[7][4];
57 complex getLsqqG(
int iGenSq,
int idQ) {
if (abs(iGenSq) > 1000000)
58 iGenSq = 3*(abs(iGenSq)/2000000) + (abs(iGenSq)%10+1)/2;
59 return (abs(idQ)%2 == 0) ? LsuuG[iGenSq][abs(idQ)/2]
60 : LsddG[iGenSq][(abs(idQ)+1)/2] ;}
61 complex getRsqqG(
int iGenSq,
int idQ) {
if (abs(iGenSq) > 1000000)
62 iGenSq = 3*(abs(iGenSq)/2000000) + (abs(iGenSq)%10+1)/2;
63 return (abs(idQ)%2 == 0) ? RsuuG[iGenSq][abs(idQ)/2]
64 : RsddG[iGenSq][(abs(idQ)+1)/2] ;}
67 complex OLpp[6][6], ORpp[6][6];
70 complex OLp[3][3], ORp[3][3];
73 complex OL[6][3], OR[6][3];
76 double LqqZ[7], RqqZ[7];
79 complex LsdsdZ[7][7], RsdsdZ[7][7];
80 complex LsusuZ[7][7], RsusuZ[7][7];
81 complex getLsqsqZ(
int idSq1,
int idSq2) {
82 if (abs(idSq1)%2 != abs(idSq2)%2)
return complex(0.0,0.0);
83 int iGen1 = 3*(abs(idSq1)/2000000) + (abs(idSq1)%10+1)/2;
84 int iGen2 = 3*(abs(idSq2)/2000000) + (abs(idSq2)%10+1)/2;
85 return (abs(idSq1)%2 == 0) ? LsusuZ[iGen1][iGen2] : LsdsdZ[iGen1][iGen2];}
86 complex getRsqsqZ(
int idSq1,
int idSq2) {
87 if (abs(idSq1)%2 != abs(idSq2)%2)
return complex(0.0,0.0);
88 int iGen1 = 3*(abs(idSq1)/2000000) + (abs(idSq1)%10+1)/2;
89 int iGen2 = 3*(abs(idSq2)/2000000) + (abs(idSq2)%10+1)/2;
90 return (abs(idSq1)%2 == 0) ? RsusuZ[iGen1][iGen2] : RsdsdZ[iGen1][iGen2];}
93 complex LudW[4][4], RudW[4][4];
96 complex LsusdW[7][7], RsusdW[7][7];
99 complex LsddX[7][4][6], RsddX[7][4][6];
100 complex LsuuX[7][4][6], RsuuX[7][4][6];
101 complex getLsqqX(
int iSq,
int idQ,
int iNeut) {
return (abs(idQ)%2 == 0)
102 ? LsuuX[iSq][abs(idQ)/2][iNeut] : LsddX[iSq][(abs(idQ)+1)/2][iNeut] ;}
103 complex getRsqqX(
int iSq,
int idQ,
int iNeut) {
return (abs(idQ)%2 == 0)
104 ? RsuuX[iSq][abs(idQ)/2][iNeut] : RsddX[iSq][(abs(idQ)+1)/2][iNeut] ;}
107 complex LsduX[7][4][3], RsduX[7][4][3];
110 complex LsudX[7][4][3], RsudX[7][4][3];
113 double LllZ[7], RllZ[7];
116 complex LlvW[4], RlvW[4];
119 complex LslslZ[7][7],RslslZ[7][7];
120 complex LsvsvZ[7][7],RsvsvZ[7][7];
123 complex LslsvW[7][7], RslsvW[7][7];
126 complex LsvvX[7][4][6], RsvvX[7][4][6];
127 complex LsllX[7][4][6], RsllX[7][4][6];
130 complex LsvlX[7][4][3], RsvlX[7][4][3];
133 complex LslvX[7][4][3], RslvX[7][4][3];
136 double rvLLE[4][4][4], rvLQD[4][4][4], rvUDD[4][4][4];
138 bool isLLE, isLQD, isUDD;
141 complex Rusq[7][7], Rdsq[7][7];
144 int idNeut(
int idChi);
145 int idChar(
int idChi);
147 int idSdown(
int iSdown);
148 int idSlep(
int iSlep);
151 int typeNeut(
int idPDG);
152 int typeChar(
int idPDG);
155 string getName(
int pdgCode);
163 static const bool DEBUG;
178 #endif // Pythia8_SusyCouplings_H