Optimal observables for ILC with polarisation for the (e+, e-) 20% and -80% at 1000GeV. More...

#include <NPSMEFT6dtopquark.h>

Inheritance diagram for opt_obs_ilc_1000_P20_M80:

Detailed Description

Optimal observables for ILC with polarisation for the (e+, e-) 20% and -80% at 1000GeV.

Definition at line 2907 of file NPSMEFT6dtopquark.h.

Public Member Functions
double	computeThValue ()

	opt_obs_ilc_1000_P20_M80 (const StandardModel &SM_i)
	opt_obs_ilc_1000_P20_M80 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 StandardModel &	getModel ()
	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 NPSMEFT6dtopquark &	myNPSMEFT6dtopquark

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 StandardModel &	SM
	A reference to an object of StandardMode class. More...

Constructor & Destructor Documentation

◆ opt_obs_ilc_1000_P20_M80()

opt_obs_ilc_1000_P20_M80::opt_obs_ilc_1000_P20_M80 ( const StandardModel & SM_i )

opt_obs_ilc_1000_P20_M80 constructor.

Definition at line 11390 of file NPSMEFT6dtopquark.cpp.

: ThObservable(SM_i), myNPSMEFT6dtopquark(static_cast<const NPSMEFT6dtopquark&> (SM_i))
{
    setParametersForObservable(make_vector<std::string>() << "lumi_ilc_1000_P20_M80" << "eff_ilc_1000_P20_M80");               
}

Member Function Documentation

◆ computeThValue()

double opt_obs_ilc_1000_P20_M80::computeThValue ( )

virtual

Returns: The value of opt_obs_ilc_1000_P20_M80

Implements ThObservable.

Definition at line 11396 of file NPSMEFT6dtopquark.cpp.

{
    
    b_min = getBinMin();
    b_max = getBinMax();
    
    double lumi = SM.getOptionalParameter("lumi_ilc_1000_P20_M80");
    double eff = SM.getOptionalParameter("eff_ilc_1000_P20_M80");
    
    //bool   flag_LHC_WG_Basis=myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_flag_LHC_WG_Basis();
    //bool   flag_Quadratic=myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_flag_Quadratic();
    
    //['ClqA', 'CeqA', 'CpqA', 'ClqV', 'CeqV', 'CpqV', 'CuZR', 'CuAR', 'CuZI', 'CuAI']
    //['cpQM','cpt','ctW','ctZ','ctWI','ctZI','cQlM1','cQe1','ctl1','cte1']
    double C_phiQm = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_phiQm();
    double C_phit = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_phit();
    double C_tW = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tW();
    double C_tZ = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_tZ();
    double CI_tW = 0.;
    double CI_tZ = 0.;
    double C_lqM = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_lqM();
    double C_eq = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_eq();
    double C_lu = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_lu();
    double C_eu = myNPSMEFT6dtopquark.getNPSMEFT6dtopquark_C_eu();
        
    
    
    if(b_min == 1 && b_max == 1){
        
        double opt_obs_ilc_1000_P20_M80_1 = 1.09540877542705*C_phiQm + 0.18862148058577427*C_phit
 + -35.860481188499*C_tW + 21.837694350089254*C_tZ
 + -3.8556927569159297e-07*CI_tW + -4.208355006267873e-05*CI_tZ
 + 247.35940816466837*C_lqM + 2.361489532060558*C_eq
 + 53.608109714112345*C_lu + 12.958176063415348*C_eu;
 
        return lumi*eff*opt_obs_ilc_1000_P20_M80_1;
        
        
    } else if(b_min == 2 && b_max == 2){
        
        double opt_obs_ilc_1000_P20_M80_2 = 0.18862148058577427*C_phiQm + 0.7311115129696788*C_phit
 + -26.932680566372618*C_tW + 16.32311969002878*C_tZ
 + 2.4581259926028614e-07*CI_tW + -4.248116619643736e-05*CI_tZ
 + 47.431814339684934*C_lqM + 5.919016723447084*C_eq
 + 166.141524013229*C_lu + 2.7626531851219776*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_2;
 
        
    } else if(b_min == 3 && b_max == 3){
        
        double opt_obs_ilc_1000_P20_M80_3 = -35.860481188499*C_phiQm + -26.932680566372618*C_phit
 + 2044.5059429291803*C_tW + -1241.3701949747465*C_tZ
 + 0.0*CI_tW + 0.0*CI_tZ
 + -8252.314633901886*C_lqM + -253.2486053570436*C_eq
 + -6429.266922940911*C_lu + -453.90775475959526*C_eu;
 
        return lumi*eff*opt_obs_ilc_1000_P20_M80_3;
 
    } else if(b_min == 4 && b_max == 4){
        
        double opt_obs_ilc_1000_P20_M80_4 = 21.837694350089254*C_phiQm + 16.32311969002878*C_phit
 + -1241.3701949747465*C_tW + 755.3703536746532*C_tZ
 + 0.0*CI_tW + 1.1273319498160023e-15*CI_tZ
 + 5026.268211757163*C_lqM + 155.28617443744682*C_eq
 + 3905.8535280221327*C_lu + 285.6331744755713*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_4;
 
        
    } else if(b_min == 5 && b_max == 5){
 
        double opt_obs_ilc_1000_P20_M80_5 = -3.8556927569159297e-07*C_phiQm + 2.4581259926028614e-07*C_phit
 + 0.0*C_tW + 0.0*C_tZ
 + 255.6325928253371*CI_tW + -155.71018707273277*CI_tZ
 + -1.0234999869608925e-05*C_lqM + -0.0007765274107141076*C_eq
 + 1.0234999958369636e-05*C_lu + -0.0007757483322086861*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_5;
 
        
    } else if(b_min == 6 && b_max == 6){
        
        double opt_obs_ilc_1000_P20_M80_6 = -4.208355006267874e-05*C_phiQm + -4.2481166196437365e-05*C_phit
 + 0.0*C_tW + 1.1273319498160023e-15*C_tZ
 + -155.71018707273274*CI_tW + 94.85691448041831*CI_tZ
 + 8.383098582487106e-06*C_lqM + 0.0014309239557751135*C_eq
 + -7.905455998246563e-06*C_lu + 0.001429619036931999*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_6;
 
        
    } else if(b_min == 7 && b_max == 7){
        
        double opt_obs_ilc_1000_P20_M80_7 = 247.3594081646683*C_phiQm + 47.43181433968492*C_phit
 + -8252.314633901886*C_tW + 5026.268211757162*C_tZ
 + -1.0234999869608927e-05*CI_tW + 8.383098582487104e-06*CI_tZ
 + 55908.33771830471*C_lqM + 590.3421847455065*C_eq
 + 13192.129236062276*C_lu + 2929.598534938029*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_7;
 
        
    } else if(b_min == 8 && b_max == 8){
        
        double opt_obs_ilc_1000_P20_M80_8 = 2.3614895320605584*C_phiQm + 5.9190167234470845*C_phit
 + -253.24860535704366*C_tW + 155.28617443744682*C_tZ
 + -0.0007765274107141076*CI_tW + 0.0014309239557751135*CI_tZ
 + 590.3421847455065*C_lqM + 70.13333227786778*C_eq
 + 1353.3567213303177*C_lu + 31.820356432446374*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_8;
 
        
    } else if(b_min == 9 && b_max == 9){
        
        double opt_obs_ilc_1000_P20_M80_9 = 53.608109714112324*C_phiQm + 166.141524013229*C_phit
 + -6429.266922940911*C_tW + 3905.853528022133*C_tZ
 + 1.0234999958369636e-05*CI_tW + -7.905455998246563e-06*CI_tZ
 + 13192.12923606227*C_lqM + 1353.3567213303177*C_eq
 + 37920.70357525274*C_lu + 818.0937122149071*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_9;
 
        
    } else if(b_min == 10 && b_max == 10){
        
        
        double opt_obs_ilc_1000_P20_M80_10 = 12.958176063415348*C_phiQm + 2.7626531851219776*C_phit
 + -453.9077547595953*C_tW + 285.63317447557125*C_tZ
 + -0.0007757483322086861*CI_tW + 0.0014296190369319987*CI_tZ
 + 2929.598534938029*C_lqM + 31.820356432446374*C_eq
 + 818.0937122149071*C_lu + 227.3111085740191*C_eu;
        
        return lumi*eff*opt_obs_ilc_1000_P20_M80_10;
 
        
    } else{
        throw std::runtime_error("\nERROR: Please specify a correct opt_obs_ilc_1000_P20_M80, it goes from 1 to 10 in consecutive pairs.\n");
    }
 
}

Member Data Documentation

◆ b_max

double opt_obs_ilc_1000_P20_M80::b_max = 0.

private

Definition at line 2924 of file NPSMEFT6dtopquark.h.

◆ b_min

double opt_obs_ilc_1000_P20_M80::b_min = 0.

private

Definition at line 2923 of file NPSMEFT6dtopquark.h.

◆ myNPSMEFT6dtopquark

const NPSMEFT6dtopquark& opt_obs_ilc_1000_P20_M80::myNPSMEFT6dtopquark

private

Definition at line 2927 of file NPSMEFT6dtopquark.h.

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

Detailed Description

Public Member Functions

Private Attributes

Additional Inherited Members

Constructor & Destructor Documentation

◆ opt_obs_ilc_1000_P20_M80()

Member Function Documentation

◆ computeThValue()

Member Data Documentation

◆ b_max

◆ b_min

◆ myNPSMEFT6dtopquark