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sigma_tta_diff_NLO_CMS_dilepton_220107301 Class Reference

#include <NPSMEFT6dtopquark.h>

+ Inheritance diagram for sigma_tta_diff_NLO_CMS_dilepton_220107301:

Detailed Description

Definition at line 1192 of file NPSMEFT6dtopquark.h.

Public Member Functions

double computeThValue ()
 
 sigma_tta_diff_NLO_CMS_dilepton_220107301 (const StandardModel &SM_i)
 sigma_tta_diff_NLO_CMS_dilepton_220107301 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...
 

Private Attributes

double b_max = 0.
 
double b_min = 0.
 
const NPSMEFT6dtopquarkmyNPSMEFT6dtopquark
 

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 StandardModelSM
 A reference to an object of StandardMode class. More...
 

Constructor & Destructor Documentation

◆ sigma_tta_diff_NLO_CMS_dilepton_220107301()

sigma_tta_diff_NLO_CMS_dilepton_220107301::sigma_tta_diff_NLO_CMS_dilepton_220107301 ( const StandardModel SM_i)

sigma_tta_diff_NLO_CMS_dilepton_220107301 constructor.

Definition at line 2980 of file NPSMEFT6dtopquark.cpp.

2981: ThObservable(SM_i), myNPSMEFT6dtopquark(static_cast<const NPSMEFT6dtopquark&> (SM_i))
2982{
2983
2984 setParametersForObservable(make_vector<std::string>() << "SM_sigma_tta_bin_20_35_CMS_dilepton" << "SM_sigma_tta_bin_35_50_CMS_dilepton"
2985 << "SM_sigma_tta_bin_50_70_CMS_dilepton" << "SM_sigma_tta_bin_70_130_CMS_dilepton"
2986 << "SM_sigma_tta_bin_130_200_CMS_dilepton" << "SM_sigma_tta_bin_200_300_CMS_dilepton");
2987
2988
2989}
ThObservable::setParametersForObservable
void setParametersForObservable(std::vector< std::string > parametersForObservable_i)
A set method to get the parameters for the specific observable.
Definition: ThObservable.h:109
ThObservable::ThObservable
ThObservable(const StandardModel &SM_i)
Constructor.
Definition: ThObservable.h:32
sigma_tta_diff_NLO_CMS_dilepton_220107301::myNPSMEFT6dtopquark
const NPSMEFT6dtopquark & myNPSMEFT6dtopquark
Definition: NPSMEFT6dtopquark.h:1214

Member Function Documentation

◆ computeThValue()

double sigma_tta_diff_NLO_CMS_dilepton_220107301::computeThValue ( )
virtual
Returns
The value of Test_direct

Implements ThObservable.

Definition at line 2991 of file NPSMEFT6dtopquark.cpp.

2992{
2993
2994 b_min = getBinMin();
2995 b_max = getBinMax();
2996
2997
2998
2999 double C_Qd1 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qd1();
3000 double C_Qd8 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qd8();
3001 double C_Qq11 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qq11();
3002 double C_Qq31 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qq31();
3003 double C_Qq18 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qq18();
3004 double C_Qq38 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qq38();
3005 double C_Qu1 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qu1();
3006 double C_Qu8 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_Qu8();
3007 double C_td1 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_td1();
3008 double C_td8 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_td8();
3009 double C_tG = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tG();
3010 double C_tq1 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tq1();
3011 double C_tq8 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tq8();
3012 double C_tu1 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tu1();
3013 double C_tu8 = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tu8();
3014 double C_tW = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tW();
3015 double C_tZ = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tZ();
3016
3017
3018 //bool flag_LHC_WG_Basis=myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_flag_LHC_WG_Basis();
3019 bool flag_Quadratic=myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_flag_Quadratic();
3020
3021
3022
3023
3024
3025 if(b_min == 20 && b_max == 35){
3026
3027 double SM_sigma_tta_bin_20_35 = SM.getOptionalParameter("SM_sigma_tta_bin_20_35_CMS_dilepton");
3028 double sigma_tta_bin_20_35_madgraph = 0.975113; //pb
3029
3030
3031 if(flag_Quadratic){
3032
3033 return SM_sigma_tta_bin_20_35 +(0.975113+0.000788*C_Qd1+0.022216*C_Qd1*C_Qd1
3034 +0.015615*C_Qd8+0.009971*C_Qd8*C_Qd8+0.003095*C_Qq11+0.074636*C_Qq11*C_Qq11
3035 +-0.000392*C_Qq31+0.076939*C_Qq31*C_Qq31+0.025252*C_Qq18+0.029486*C_Qq18*C_Qq18
3036 +0.009971*C_Qq38+0.032206*C_Qq38*C_Qq38+0.004873*C_Qu1+0.071282*C_Qu1*C_Qu1
3037 +0.027259*C_Qu8+0.022655*C_Qu8*C_Qu8+0.010583*C_td1+0.021511*C_td1*C_td1
3038 +0.008297*C_td8+0.022696*C_td8*C_td8+0.293375*C_tG+0.071832*C_tG*C_tG
3039 -0.017083*C_tq1+0.069788*C_tq1*C_tq1+0.028813*C_tq8+0.031600*C_tq8*C_tq8
3040 -0.000271*C_tu1+0.055283*C_tu1*C_tu1+0.015878*C_tu8+0.028156*C_tu8*C_tu8
3041 +0.015359*C_tW+0.021535*C_tW*C_tW+-0.020018*C_tZ+0.030927*C_tZ*C_tZ)
3042 *(SM_sigma_tta_bin_20_35/sigma_tta_bin_20_35_madgraph);
3043
3044 }
3045 else{
3046
3047
3048
3049 return SM_sigma_tta_bin_20_35 +(0.000788*C_Qd1+0.015615*C_Qd8
3050 +0.003095*C_Qq11+-0.000392*C_Qq31+0.025252*C_Qq18+0.009971*C_Qq38
3051 +0.004873*C_Qu1+0.027259*C_Qu8+0.010583*C_td1+0.008297*C_td8
3052 +0.293375*C_tG+-0.017083*C_tq1+0.028813*C_tq8+-0.000271*C_tu1
3053 +0.015878*C_tu8+0.015359*C_tW+-0.020018*C_tZ)
3054 *(SM_sigma_tta_bin_20_35/sigma_tta_bin_20_35_madgraph);
3055 }
3056 } else if(b_min == 35 && b_max == 50){
3057
3058
3059 double SM_sigma_tta_bin_35_50 = SM.getOptionalParameter("SM_sigma_tta_bin_35_50_CMS_dilepton");
3060 double sigma_tta_bin_35_50_madgraph = 0.523831; //pb
3061
3062
3063 if(flag_Quadratic){
3064
3065 return SM_sigma_tta_bin_35_50 +(-0.002203*C_Qd1+0.002912*C_Qd1*C_Qd1+0.001037*C_Qd8
3066 -0.001324*C_Qd8*C_Qd8+-0.001593*C_Qq11+0.021815*C_Qq11*C_Qq11+-0.002413*C_Qq31
3067 +0.014750*C_Qq31*C_Qq31+0.023210*C_Qq18+-0.000332*C_Qq18*C_Qq18+0.003673*C_Qq38
3068 +0.001051*C_Qq38*C_Qq38+0.000986*C_Qu1+0.033309*C_Qu1*C_Qu1+0.012209*C_Qu8
3069 +0.000396*C_Qu8*C_Qu8+0.005764*C_td1+0.007074*C_td1*C_td1+0.002688*C_td8
3070 -0.003340*C_td8*C_td8+0.147862*C_tG+0.023437*C_tG*C_tG+-0.004221*C_tq1
3071 +0.039220*C_tq1*C_tq1+0.019842*C_tq8+-0.005781*C_tq8*C_tq8+-0.000079*C_tu1
3072 +0.010630*C_tu1*C_tu1+0.012863*C_tu8+-0.007084*C_tu8*C_tu8+0.019122*C_tW
3073 +0.025787*C_tW*C_tW+-0.021752*C_tZ+0.017695*C_tZ*C_tZ)
3074 *(SM_sigma_tta_bin_35_50/sigma_tta_bin_35_50_madgraph);;
3075
3076 }
3077 else{
3078
3079 return SM_sigma_tta_bin_35_50 +(-0.002203*C_Qd1+0.001037*C_Qd8+-0.001593*C_Qq11
3080 -0.002413*C_Qq31+0.023210*C_Qq18+0.003673*C_Qq38+0.000986*C_Qu1+0.012209*C_Qu8
3081 +0.005764*C_td1+0.002688*C_td8+0.147862*C_tG+-0.004221*C_tq1+0.019842*C_tq8
3082 -0.000079*C_tu1+0.012863*C_tu8+0.019122*C_tW+-0.021752*C_tZ)
3083 *(SM_sigma_tta_bin_35_50/sigma_tta_bin_35_50_madgraph);
3084
3085 }
3086 } else if(b_min == 50 && b_max == 70){
3087
3088
3089 double SM_sigma_tta_bin_50_70 = SM.getOptionalParameter("SM_sigma_tta_bin_50_70_CMS_dilepton");
3090 double sigma_tta_bin_50_70_madgraph = 0.399663; //pb
3091
3092
3093 if(flag_Quadratic){
3094
3095 return SM_sigma_tta_bin_50_70 +(-0.000900*C_Qd1+0.006167*C_Qd1*C_Qd1+0.003927*C_Qd8
3096 +0.001326*C_Qd8*C_Qd8+0.001956*C_Qq11+0.021969*C_Qq11*C_Qq11+-0.002388*C_Qq31
3097 +0.026569*C_Qq31*C_Qq31+0.009836*C_Qq18+0.005966*C_Qq18*C_Qq18+0.001784*C_Qq38
3098 +0.004714*C_Qq38*C_Qq38+-0.008926*C_Qu1+0.026436*C_Qu1*C_Qu1+0.008793*C_Qu8
3099 +0.002637*C_Qu8*C_Qu8+-0.004573*C_td1+0.006145*C_td1*C_td1+0.004629*C_td8
3100 +0.004192*C_td8*C_td8+0.111319*C_tG+0.023254*C_tG*C_tG+-0.003314*C_tq1
3101 +0.030819*C_tq1*C_tq1+0.010340*C_tq8+0.009217*C_tq8*C_tq8+-0.001303*C_tu1
3102 +0.018581*C_tu1*C_tu1+0.004583*C_tu8+0.004069*C_tu8*C_tu8+0.024243*C_tW
3103 +0.042926*C_tW*C_tW+-0.013215*C_tZ+0.030797*C_tZ*C_tZ)
3104 *(SM_sigma_tta_bin_50_70/sigma_tta_bin_50_70_madgraph);;
3105
3106 }
3107 else{
3108
3109 return SM_sigma_tta_bin_50_70 +(-0.000900*C_Qd1+0.003927*C_Qd8+0.001956*C_Qq11+-0.002388*C_Qq31
3110 +0.009836*C_Qq18+0.001784*C_Qq38+-0.008926*C_Qu1+0.008793*C_Qu8+-0.004573*C_td1
3111 +0.004629*C_td8+0.111319*C_tG+-0.003314*C_tq1+0.010340*C_tq8+-0.001303*C_tu1
3112 +0.004583*C_tu8+0.024243*C_tW+-0.013215*C_tZ)
3113 *(SM_sigma_tta_bin_50_70/sigma_tta_bin_50_70_madgraph);
3114
3115 }
3116 } else if(b_min == 70 && b_max == 130){
3117
3118
3119 double SM_sigma_tta_bin_70_130 = SM.getOptionalParameter("SM_sigma_tta_bin_70_130_CMS_dilepton");
3120 double sigma_tta_bin_70_100_madgraph = 0.330761; //pb
3121 double sigma_tta_bin_100_130_madgraph =0.182187; //pb
3122 double sigma_tta_bin_70_130_madgraph =sigma_tta_bin_70_100_madgraph+sigma_tta_bin_100_130_madgraph; //pb
3123
3124 if(flag_Quadratic){
3125
3126 double sigma_tta_bin_70_100_NP = (0.000736*C_Qd1+0.002661*C_Qd1*C_Qd1+0.000607*C_Qd8+0.001692*C_Qd8*C_Qd8
3127 +-0.000097*C_Qq11+0.020897*C_Qq11*C_Qq11+-0.001074*C_Qq31+0.019638*C_Qq31*C_Qq31+0.007285*C_Qq18
3128 +0.003571*C_Qq18*C_Qq18+0.001987*C_Qq38+0.001518*C_Qq38*C_Qq38+-0.003159*C_Qu1+0.027137*C_Qu1*C_Qu1
3129 +0.008729*C_Qu8+0.003259*C_Qu8*C_Qu8+0.002396*C_td1+0.005831*C_td1*C_td1+0.002438*C_td8
3130 +0.001050*C_td8*C_td8+0.088372*C_tG+0.018412*C_tG*C_tG+-0.002403*C_tq1+0.033166*C_tq1*C_tq1
3131 +0.010186*C_tq8+0.002150*C_tq8*C_tq8+0.001916*C_tu1+0.010698*C_tu1*C_tu1+0.007129*C_tu8
3132 +0.002852*C_tu8*C_tu8+0.028690*C_tW+0.055463*C_tW*C_tW+-0.024168*C_tZ+0.044158*C_tZ*C_tZ);
3133
3134
3135 double sigma_tta_bin_100_130_NP = (-0.000532*C_Qd1+0.003711*C_Qd1*C_Qd1+-0.000866*C_Qd8+0.000827*C_Qd8*C_Qd8
3136 +0.000833*C_Qq11+0.014119*C_Qq11*C_Qq11+0.000026*C_Qq31+0.013016*C_Qq31*C_Qq31+0.003946*C_Qq18
3137 +0.002769*C_Qq18*C_Qq18+0.002527*C_Qq38+0.003527*C_Qq38*C_Qq38+-0.001730*C_Qu1+0.016375*C_Qu1*C_Qu1
3138 +0.004798*C_Qu8+0.003116*C_Qu8*C_Qu8+-0.000105*C_td1+0.006509*C_td1*C_td1+0.001677*C_td8
3139 -0.000010*C_td8*C_td8+0.047396*C_tG+0.012131*C_tG*C_tG+-0.001607*C_tq1+0.017941*C_tq1*C_tq1
3140 +0.003987*C_tq8+0.003210*C_tq8*C_tq8+0.000006*C_tu1+0.009547*C_tu1*C_tu1+0.002691*C_tu8
3141 +0.001113*C_tu8*C_tu8+0.017670*C_tW+0.054483*C_tW*C_tW+-0.014593*C_tZ+0.042939*C_tZ*C_tZ);
3142
3143 return SM_sigma_tta_bin_70_130 + (sigma_tta_bin_70_100_NP + sigma_tta_bin_100_130_NP)*(SM_sigma_tta_bin_70_130/sigma_tta_bin_70_130_madgraph);
3144
3145
3146 }
3147 else{
3148
3149 double sigma_tta_bin_70_100_NP = (0.000736*C_Qd1+0.000607*C_Qd8+-0.000097*C_Qq11+-0.001074*C_Qq31
3150 +0.007285*C_Qq18+0.001987*C_Qq38+-0.003159*C_Qu1+0.008729*C_Qu8+0.002396*C_td1+0.002438*C_td8
3151 +0.088372*C_tG+-0.002403*C_tq1+0.010186*C_tq8+0.001916*C_tu1+0.007129*C_tu8+0.028690*C_tW-0.024168*C_tZ);
3152
3153
3154 double sigma_tta_bin_100_130_NP = (-0.000532*C_Qd1+-0.000866*C_Qd8+0.000833*C_Qq11+0.000026*C_Qq31
3155 +0.003946*C_Qq18+0.002527*C_Qq38+-0.001730*C_Qu1+0.004798*C_Qu8+-0.000105*C_td1+0.001677*C_td8
3156 +0.047396*C_tG+-0.001607*C_tq1+0.003987*C_tq8+0.000006*C_tu1+0.002691*C_tu8+0.017670*C_tW+-0.014593*C_tZ);
3157
3158 return SM_sigma_tta_bin_70_130 + (sigma_tta_bin_70_100_NP + sigma_tta_bin_100_130_NP)*(SM_sigma_tta_bin_70_130/sigma_tta_bin_70_130_madgraph);
3159
3160 }
3161
3162 } else if(b_min == 130 && b_max == 200){
3163
3164
3165 double SM_sigma_tta_bin_130_200 = SM.getOptionalParameter("SM_sigma_tta_bin_130_200_CMS_dilepton");
3166 double sigma_tta_bin_130_165_madgraph = 0.123480; //pb
3167 double sigma_tta_bin_165_200_madgraph = 0.071661; //pb
3168 double sigma_tta_bin_130_200_madgraph = sigma_tta_bin_130_165_madgraph+sigma_tta_bin_165_200_madgraph;
3169
3170 if(flag_Quadratic){
3171
3172
3173 double sigma_tta_bin_130_165_NP = (0.123480+-0.000179*C_Qd1+0.001106*C_Qd1*C_Qd1+0.000840*C_Qd8
3174 +-0.000657*C_Qd8*C_Qd8+0.000217*C_Qq11+0.009123*C_Qq11*C_Qq11+-0.000610*C_Qq31+0.009951*C_Qq31*C_Qq31
3175 +0.002961*C_Qq18+0.001668*C_Qq18*C_Qq18+0.000933*C_Qq38+0.001121*C_Qq38*C_Qq38+-0.001176*C_Qu1
3176 +0.012505*C_Qu1*C_Qu1+0.003349*C_Qu8+0.001583*C_Qu8*C_Qu8+0.001208*C_td1+0.003861*C_td1*C_td1
3177 +0.001677*C_td8+0.001007*C_td8*C_td8+0.033068*C_tG+0.007722*C_tG*C_tG+-0.001873*C_tq1
3178 +0.014593*C_tq1*C_tq1+0.004056*C_tq8+0.001186*C_tq8*C_tq8+-0.000148*C_tu1+0.005718*C_tu1*C_tu1
3179 +0.000955*C_tu8+0.001565*C_tu8*C_tu8+0.008850*C_tW+0.054838*C_tW*C_tW+-0.011773*C_tZ+0.042418*C_tZ*C_tZ);
3180
3181
3182 double sigma_tta_bin_165_200_NP = (0.071661+0.000321*C_Qd1+0.001864*C_Qd1*C_Qd1+0.000523*C_Qd8
3183 +0.000484*C_Qd8*C_Qd8+-0.000468*C_Qq11+0.006489*C_Qq11*C_Qq11+-0.000323*C_Qq31+0.007170*C_Qq31*C_Qq31
3184 +0.001760*C_Qq18+0.001505*C_Qq18*C_Qq18+0.000167*C_Qq38+0.001674*C_Qq38*C_Qq38+-0.001324*C_Qu1
3185 +0.009641*C_Qu1*C_Qu1+0.001312*C_Qu8+0.000612*C_Qu8*C_Qu8+0.000060*C_td1+0.002828*C_td1*C_td1
3186 +0.000787*C_td8+0.000566*C_td8*C_td8+0.018680*C_tG+0.005598*C_tG*C_tG+-0.001764*C_tq1
3187 +0.009979*C_tq1*C_tq1+0.001779*C_tq8+0.001441*C_tq8*C_tq8+-0.000282*C_tu1+0.004307*C_tu1*C_tu1
3188 +0.001148*C_tu8+0.000369*C_tu8*C_tu8+0.008066*C_tW+0.045701*C_tW*C_tW+-0.004856*C_tZ+0.033619*C_tZ*C_tZ);
3189
3190 return SM_sigma_tta_bin_130_200 + (sigma_tta_bin_130_165_NP+sigma_tta_bin_165_200_NP)*(SM_sigma_tta_bin_130_200/sigma_tta_bin_130_200_madgraph);
3191
3192
3193 }
3194 else{
3195
3196
3197 double sigma_tta_bin_130_165_NP = (-0.000179*C_Qd1+0.000840*C_Qd8+0.000217*C_Qq11+-0.000610*C_Qq31
3198 +0.002961*C_Qq18+0.000933*C_Qq38+-0.001176*C_Qu1+0.003349*C_Qu8+0.001208*C_td1+0.001677*C_td8
3199 +0.033068*C_tG+-0.001873*C_tq1+0.004056*C_tq8+-0.000148*C_tu1+0.000955*C_tu8+0.008850*C_tW+-0.011773*C_tZ);
3200
3201
3202 double sigma_tta_bin_165_200_NP = (0.000321*C_Qd1+0.000523*C_Qd8+-0.000468*C_Qq11+-0.000323*C_Qq31
3203 +0.001760*C_Qq18+0.000167*C_Qq38+-0.001324*C_Qu1+0.001312*C_Qu8+0.000060*C_td1+0.000787*C_td8+0.018680*C_tG
3204 -0.001764*C_tq1+0.001779*C_tq8+-0.000282*C_tu1+0.001148*C_tu8+0.008066*C_tW+-0.004856*C_tZ);
3205
3206 return SM_sigma_tta_bin_130_200 + (sigma_tta_bin_130_165_NP+sigma_tta_bin_165_200_NP)*(SM_sigma_tta_bin_130_200/sigma_tta_bin_130_200_madgraph);
3207
3208 }
3209 } else if(b_min == 200 && b_max == 300){
3210
3211
3212 double SM_sigma_tta_bin_200_300 = SM.getOptionalParameter("SM_sigma_tta_bin_200_300_CMS_dilepton");
3213 double sigma_tta_bin_200_250_madgraph = 0.057272; //pb
3214 double sigma_tta_bin_250_300_madgraph = 0.067466; //pb
3215 double sigma_tta_bin_200_300_madgraph = sigma_tta_bin_200_250_madgraph+sigma_tta_bin_250_300_madgraph; //pb
3216
3217
3218 if(flag_Quadratic){
3219
3220 double sigma_tta_bin_200_250_NP = (-0.000047*C_Qd1+0.001342*C_Qd1*C_Qd1+0.000136*C_Qd8+0.000006*C_Qd8*C_Qd8
3221 +0.000342*C_Qq11+0.006388*C_Qq11*C_Qq11+-0.000150*C_Qq31+0.006218*C_Qq31*C_Qq31+0.001724*C_Qq18
3222 +0.000750*C_Qq18*C_Qq18+0.000025*C_Qq38+0.000623*C_Qq38*C_Qq38+-0.000462*C_Qu1+0.007979*C_Qu1*C_Qu1
3223 +0.001728*C_Qu8+0.001000*C_Qu8*C_Qu8+0.000385*C_td1+0.001911*C_td1*C_td1+0.000618*C_td8+0.000138*C_td8*C_td8
3224 +0.014921*C_tG+0.004175*C_tG*C_tG+-0.000474*C_tq1+0.009899*C_tq1*C_tq1+0.002069*C_tq8+0.000524*C_tq8*C_tq8
3225 +0.000373*C_tu1+0.003594*C_tu1*C_tu1+0.000824*C_tu8+0.000624*C_tu8*C_tu8+0.003702*C_tW+0.049912*C_tW*C_tW
3226 +-0.004612*C_tZ+0.038502*C_tZ*C_tZ);
3227
3228 double sigma_tta_bin_250_300_NP = (-0.000159*C_Qd1+0.004318*C_Qd1*C_Qd1+0.000593*C_Qd8+0.000437*C_Qd8*C_Qd8
3229 +0.000507*C_Qq11+0.019093*C_Qq11*C_Qq11+-0.000174*C_Qq31+0.019040*C_Qq31*C_Qq31+0.002418*C_Qq18
3230 +0.003576*C_Qq18*C_Qq18+0.000138*C_Qq38+0.003125*C_Qq38*C_Qq38+-0.001614*C_Qu1+0.023126*C_Qu1*C_Qu1
3231 +0.002333*C_Qu8+0.002169*C_Qu8*C_Qu8+0.000208*C_td1+0.006881*C_td1*C_td1+0.001121*C_td8+0.001259*C_td8*C_td8
3232 +0.017830*C_tG+0.007512*C_tG*C_tG+-0.001787*C_tq1+0.027531*C_tq1*C_tq1+0.002581*C_tq8+0.002984*C_tq8*C_tq8
3233 -0.000132*C_tu1+0.012280*C_tu1*C_tu1+0.001367*C_tu8+0.002013*C_tu8*C_tu8+0.003271*C_tW+0.124997*C_tW*C_tW
3234 -0.002154*C_tZ+0.096300*C_tZ*C_tZ);
3235
3236 return SM_sigma_tta_bin_200_300 + (sigma_tta_bin_200_250_NP + sigma_tta_bin_250_300_NP)*(SM_sigma_tta_bin_200_300/sigma_tta_bin_200_300_madgraph);
3237
3238 }
3239 else{
3240
3241 double sigma_tta_bin_200_250_NP = (-0.000047*C_Qd1+0.000136*C_Qd8+0.000342*C_Qq11+-0.000150*C_Qq31
3242 +0.001724*C_Qq18+0.000025*C_Qq38+-0.000462*C_Qu1+0.001728*C_Qu8+0.000385*C_td1+0.000618*C_td8
3243 +0.014921*C_tG+-0.000474*C_tq1+0.002069*C_tq8+0.000373*C_tu1+0.000824*C_tu8+0.003702*C_tW+-0.004612*C_tZ);
3244
3245 double sigma_tta_bin_250_300_NP = (-0.000159*C_Qd1+0.000593*C_Qd8+0.000507*C_Qq11+-0.000174*C_Qq31
3246 +0.002418*C_Qq18+0.000138*C_Qq38+-0.001614*C_Qu1+0.002333*C_Qu8+0.000208*C_td1+0.001121*C_td8
3247 +0.017830*C_tG+-0.001787*C_tq1+0.002581*C_tq8+-0.000132*C_tu1+0.001367*C_tu8+0.003271*C_tW+-0.002154*C_tZ);
3248
3249 return SM_sigma_tta_bin_200_300 + (sigma_tta_bin_200_250_NP + sigma_tta_bin_250_300_NP)*(SM_sigma_tta_bin_200_300/sigma_tta_bin_200_300_madgraph);
3250
3251 }
3252 } else{
3253 throw std::runtime_error("\nERROR: Please specify a correct binning range for sigma_tta_diff_LO_CMS_dilepton.\n");
3254 }
3255
3256}
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_flag_Quadratic
double getNPSMEFT6dtopquark_flag_Quadratic() const
Definition: NPSMEFT6dtopquark.h:220
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qd1
double getNPSMEFT6dtopquark_C_Qd1() const
Definition: NPSMEFT6dtopquark.h:164
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qq38
double getNPSMEFT6dtopquark_C_Qq38() const
Definition: NPSMEFT6dtopquark.h:147
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qq31
double getNPSMEFT6dtopquark_C_Qq31() const
Definition: NPSMEFT6dtopquark.h:182
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qq18
double getNPSMEFT6dtopquark_C_Qq18() const
Definition: NPSMEFT6dtopquark.h:141
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_tq1
double getNPSMEFT6dtopquark_C_tq1() const
Definition: NPSMEFT6dtopquark.h:176
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_tG
double getNPSMEFT6dtopquark_C_tG() const
Definition: NPSMEFT6dtopquark.h:101
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qu1
double getNPSMEFT6dtopquark_C_Qu1() const
Definition: NPSMEFT6dtopquark.h:167
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_tu8
double getNPSMEFT6dtopquark_C_tu8() const
Definition: NPSMEFT6dtopquark.h:134
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qu8
double getNPSMEFT6dtopquark_C_Qu8() const
Definition: NPSMEFT6dtopquark.h:150
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_td8
double getNPSMEFT6dtopquark_C_td8() const
Definition: NPSMEFT6dtopquark.h:138
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qd8
double getNPSMEFT6dtopquark_C_Qd8() const
Definition: NPSMEFT6dtopquark.h:153
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_tq8
double getNPSMEFT6dtopquark_C_tq8() const
Definition: NPSMEFT6dtopquark.h:144
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_Qq11
double getNPSMEFT6dtopquark_C_Qq11() const
Definition: NPSMEFT6dtopquark.h:179
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_td1
double getNPSMEFT6dtopquark_C_td1() const
Definition: NPSMEFT6dtopquark.h:170
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_tZ
double getNPSMEFT6dtopquark_C_tZ() const
Definition: NPSMEFT6dtopquark.h:69
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_tW
double getNPSMEFT6dtopquark_C_tW() const
Definition: NPSMEFT6dtopquark.h:65
NPSMEFT6dtopquark::getNPSMEFT6dtopquark_C_tu1
double getNPSMEFT6dtopquark_C_tu1() const
Definition: NPSMEFT6dtopquark.h:173
QCD::getOptionalParameter
const double getOptionalParameter(std::string name) const
A method to get parameters that are specific to only one set of observables.
Definition: QCD.h:450
ThObservable::getBinMin
double getBinMin()
A get method to get the minimum value of the bin.
Definition: ThObservable.h:82
ThObservable::getBinMax
double getBinMax()
A get method to get the maximum value of the bin.
Definition: ThObservable.h:91
ThObservable::SM
const StandardModel & SM
A reference to an object of StandardMode class.
Definition: ThObservable.h:121
sigma_tta_diff_NLO_CMS_dilepton_220107301::b_min
double b_min
Definition: NPSMEFT6dtopquark.h:1210
sigma_tta_diff_NLO_CMS_dilepton_220107301::b_max
double b_max
Definition: NPSMEFT6dtopquark.h:1211

Member Data Documentation

◆ b_max

double sigma_tta_diff_NLO_CMS_dilepton_220107301::b_max = 0.
private

Definition at line 1211 of file NPSMEFT6dtopquark.h.

◆ b_min

double sigma_tta_diff_NLO_CMS_dilepton_220107301::b_min = 0.
private

Definition at line 1210 of file NPSMEFT6dtopquark.h.

◆ myNPSMEFT6dtopquark

const NPSMEFT6dtopquark& sigma_tta_diff_NLO_CMS_dilepton_220107301::myNPSMEFT6dtopquark
private

Definition at line 1214 of file NPSMEFT6dtopquark.h.

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