EnergyUncertaintyPhotonSpecific Class Reference

#include <EnergyUncertaintyPhotonSpecific.h>

Public Member Functions
double	computePhotonEnergyUncertainty_highR9 (double eta, double brem, double energy)
double	computePhotonEnergyUncertainty_lowR9 (double eta, double brem, double energy)
	EnergyUncertaintyPhotonSpecific (const edm::ParameterSet &config)
void	init (const edm::EventSetup &theEventSetup)
	~EnergyUncertaintyPhotonSpecific ()

Detailed Description

Author

Nicolas Chanon, ETH Zurich, Switzerland

Definition at line 16 of file EnergyUncertaintyPhotonSpecific.h.

Constructor & Destructor Documentation

EnergyUncertaintyPhotonSpecific::EnergyUncertaintyPhotonSpecific

(

const edm::ParameterSet &

config

)

Definition at line 7 of file EnergyUncertaintyPhotonSpecific.cc.

                                                                                                 {



}

EnergyUncertaintyPhotonSpecific::~EnergyUncertaintyPhotonSpecific

(

)

Definition at line 14 of file EnergyUncertaintyPhotonSpecific.cc.

                                                                  {

}

Member Function Documentation

double EnergyUncertaintyPhotonSpecific::computePhotonEnergyUncertainty_highR9	(	double	eta,
		double	brem,
		double	energy
	)

Definition at line 253 of file EnergyUncertaintyPhotonSpecific.cc.

References Abs(), and fitWZ::par0.

                                                                                                                   {



  double et = energy/cosh(eta);

  const int nBinsEta=6;
  const double EtaBins[nBinsEta+1] = {0.0, 0.7, 1.15, 1.44, 1.56, 2.0, 2.5};

  const int nBinsBrem=6;
  const double BremBins  [nBinsBrem+1]= {0.8, 1.0, 2.0, 3.0, 4.0, 5.0, 10.0};

  float par0[nBinsEta][nBinsBrem];
  float par1[nBinsEta][nBinsBrem];
  float par2[nBinsEta][nBinsBrem];
  float par3[nBinsEta][nBinsBrem];

  par0[0][0]=0.00806753;
  par1[0][0]=0.143754;
  par2[0][0]=-0.00368104;
  par3[0][0]=0.219829;

  par0[0][1]=0.00899298;
  par1[0][1]=0.10159;
  par2[0][1]=4.70884;
  par3[0][1]=9.07419e-08;

  par0[0][2]=0;
  par1[0][2]=0;
  par2[0][2]=0;
  par3[0][2]=0;

  par0[0][3]=0;
  par1[0][3]=0;
  par2[0][3]=0;
  par3[0][3]=0;

  par0[0][4]=0;
  par1[0][4]=0;
  par2[0][4]=0;
  par3[0][4]=0;

  par0[0][5]=0;
  par1[0][5]=0;
  par2[0][5]=0;
  par3[0][5]=0;

  par0[1][0]=0.00880649;
  par1[1][0]=0.0716169;
  par2[1][0]=5.23856;
  par3[1][0]=0.00632907;

  par0[1][1]=0.00972275;
  par1[1][1]=0.0752675;
  par2[1][1]=3.35623;
  par3[1][1]=2.49397e-07;

  par0[1][2]=0;
  par1[1][2]=0;
  par2[1][2]=0;
  par3[1][2]=0;

  par0[1][3]=0;
  par1[1][3]=0;
  par2[1][3]=0;
  par3[1][3]=0;

  par0[1][4]=0;
  par1[1][4]=0;
  par2[1][4]=0;
  par3[1][4]=0;

  par0[1][5]=0;
  par1[1][5]=0;
  par2[1][5]=0;
  par3[1][5]=0;

  par0[2][0]=0.0101474;
  par1[2][0]=-0.332171;
  par2[2][0]=-31.8456;
  par3[2][0]=22.543;

  par0[2][1]=0.0109109;
  par1[2][1]=0.0425903;
  par2[2][1]=6.52561;
  par3[2][1]=2.18593e-08;

  par0[2][2]=0;
  par1[2][2]=0;
  par2[2][2]=0;
  par3[2][2]=0;

  par0[2][3]=0;
  par1[2][3]=0;
  par2[2][3]=0;
  par3[2][3]=0;

  par0[2][4]=0;
  par1[2][4]=0;
  par2[2][4]=0;
  par3[2][4]=0;

  par0[2][5]=0;
  par1[2][5]=0;
  par2[2][5]=0;
  par3[2][5]=0;

  par0[3][0]=0.00343003;
  par1[3][0]=11.5791;
  par2[3][0]=-112.084;
  par3[3][0]=-863.968;

  par0[3][1]=0.0372159;
  par1[3][1]=1.44028;
  par2[3][1]=-40;
  par3[3][1]=0.00102639;

  par0[3][2]=0;
  par1[3][2]=0;
  par2[3][2]=0;
  par3[3][2]=0;

  par0[3][3]=0;
  par1[3][3]=0;
  par2[3][3]=0;
  par3[3][3]=0;

  par0[3][4]=0;
  par1[3][4]=0;
  par2[3][4]=0;
  par3[3][4]=0;

  par0[3][5]=0;
  par1[3][5]=0;
  par2[3][5]=0;
  par3[3][5]=0;

  par0[4][0]=0.0192411;
  par1[4][0]=0.0511006;
  par2[4][0]=7.56304;
  par3[4][0]=0.00331583;

  par0[4][1]=0.0195124;
  par1[4][1]=0.104321;
  par2[4][1]=5.71476;
  par3[4][1]=6.12472e-06;

  par0[4][2]=0;
  par1[4][2]=0;
  par2[4][2]=0;
  par3[4][2]=0;

  par0[4][3]=0;
  par1[4][3]=0;
  par2[4][3]=0;
  par3[4][3]=0;

  par0[4][4]=0;
  par1[4][4]=0;
  par2[4][4]=0;
  par3[4][4]=0;

  par0[4][5]=0;
  par1[4][5]=0;
  par2[4][5]=0;
  par3[4][5]=0;

  par0[5][0]=0.0203644;
  par1[5][0]=-0.050789;
  par2[5][0]=-7.96854;
  par3[5][0]=4.71223;

  par0[5][1]=0.0198718;
  par1[5][1]=0.106859;
  par2[5][1]=3.54235;
  par3[5][1]=6.89631e-06;

  par0[5][2]=0;
  par1[5][2]=0;
  par2[5][2]=0;
  par3[5][2]=0;

  par0[5][3]=0;
  par1[5][3]=0;
  par2[5][3]=0;
  par3[5][3]=0;

  par0[5][4]=0;
  par1[5][4]=0;
  par2[5][4]=0;
  par3[5][4]=0;

  par0[5][5]=0;
  par1[5][5]=0;
  par2[5][5]=0;
  par3[5][5]=0;


  int iEtaSl = -1;                                                                         
  for (int iEta = 0; iEta < nBinsEta; ++iEta){                                           
    if ( EtaBins[iEta] <= TMath::Abs(eta) && TMath::Abs(eta) <EtaBins[iEta+1] ){             
      iEtaSl = iEta;                                                                         
    }                                                                                        
  }


  int iBremSl = -1;                                                                        
  for (int iBrem = 0; iBrem < nBinsBrem; ++iBrem){                                       
    if ( BremBins[iBrem] <= brem && brem <BremBins[iBrem+1] ){           
      iBremSl = iBrem;                                                                       
    }                                                                                        
  }

  if (TMath::Abs(eta)>2.5) iEtaSl = nBinsEta-1;
  if (brem<BremBins[0]) iBremSl = 0;
  if (brem>BremBins[nBinsBrem-1]) iBremSl = nBinsBrem-1;
  if (brem>2) iBremSl = 1;

  float uncertainty = 0;
  if (iBremSl >= 0 && iBremSl < nBinsBrem && iEtaSl >= 0 && iEtaSl < nBinsEta) {
    if (et<5) uncertainty = par0[iEtaSl][iBremSl] + par1[iEtaSl][iBremSl]/(5-par2[iEtaSl][iBremSl]) + par3[iEtaSl][iBremSl]/((5-par2[iEtaSl][iBremSl])*(5-par2[iEtaSl][iBremSl]));
    else if (et>200) uncertainty = par0[iEtaSl][iBremSl] + par1[iEtaSl][iBremSl]/(200-par2[iEtaSl][iBremSl]) + par3[iEtaSl][iBremSl]/((200-par2[iEtaSl][iBremSl])*(200-par2[iEtaSl][iBremSl]));
    else if (et>=5 && et<=200) uncertainty = par0[iEtaSl][iBremSl] + par1[iEtaSl][iBremSl]/(et-par2[iEtaSl][iBremSl]) + par3[iEtaSl][iBremSl]/((et-par2[iEtaSl][iBremSl])*(et-par2[iEtaSl][iBremSl]));
  }

  return (uncertainty*energy);

}

double EnergyUncertaintyPhotonSpecific::computePhotonEnergyUncertainty_lowR9	(	double	eta,
		double	brem,
		double	energy
	)

Definition at line 25 of file EnergyUncertaintyPhotonSpecific.cc.

References Abs(), and fitWZ::par0.

                                                                                                                  {

 

  double et = energy/cosh(eta);

  const int nBinsEta=6;
  const double EtaBins[nBinsEta+1] = {0.0, 0.7, 1.15, 1.44, 1.56, 2.0, 2.5};

  const int nBinsBrem=6;
  const double BremBins  [nBinsBrem+1]= {0.8, 1.0, 2.0, 3.0, 4.0, 5.0, 10.0};


  float par0[nBinsEta][nBinsBrem];
  float par1[nBinsEta][nBinsBrem];
  float par2[nBinsEta][nBinsBrem];
  float par3[nBinsEta][nBinsBrem];

  par0[0][0]=0.0232291;
  par1[0][0]=0;
  par2[0][0]=0;
  par3[0][0]=0;

  par0[0][1]=0.00703187;
  par1[0][1]=0.646644;
  par2[0][1]=-7.4698;
  par3[0][1]=5.53373e-08;

  par0[0][2]=0.00692465;
  par1[0][2]=0.292698;
  par2[0][2]=4.16907;
  par3[0][2]=5.61149e-06;

  par0[0][3]=0.00855993;
  par1[0][3]=0.280843;
  par2[0][3]=4.25527;
  par3[0][3]=9.6404e-07;

  par0[0][4]=0.00795058;
  par1[0][4]=0.370007;
  par2[0][4]=3.03429;
  par3[0][4]=4.43986e-07;

  par0[0][5]=0.0107494;
  par1[0][5]=0.276159;
  par2[0][5]=4.44532;
  par3[0][5]=2.58822e-06;

  par0[1][0]=0.0614866;
  par1[1][0]=0;
  par2[1][0]=0;
  par3[1][0]=0;

  par0[1][1]=0.00894211;
  par1[1][1]=0.466937;
  par2[1][1]=3.33434;
  par3[1][1]=0.000114835;

  par0[1][2]=0.0102959;
  par1[1][2]=0.313568;
  par2[1][2]=6.34301;
  par3[1][2]=2.86726e-07;

  par0[1][3]=0.0128934;
  par1[1][3]=0.302943;
  par2[1][3]=6.35598;
  par3[1][3]=0.00190694;

  par0[1][4]=0.0130199;
  par1[1][4]=0.505135;
  par2[1][4]=2.52964;
  par3[1][4]=0.120204;

  par0[1][5]=0.0180839;
  par1[1][5]=0.382134;
  par2[1][5]=5.3388;
  par3[1][5]=3.59921e-07;

  par0[2][0]=0.0291343;
  par1[2][0]=0;
  par2[2][0]=0;
  par3[2][0]=0;

  par0[2][1]=0.00876269;
  par1[2][1]=0.375159;
  par2[2][1]=7.11411;
  par3[2][1]=0.0438575;

  par0[2][2]=0.0120863;
  par1[2][2]=0.397635;
  par2[2][2]=5.97451;
  par3[2][2]=0.0469782;

  par0[2][3]=0.0112655;
  par1[2][3]=0.856565;
  par2[2][3]=-5.76122;
  par3[2][3]=4.99993;

  par0[2][4]=0.0168267;
  par1[2][4]=0.636468;
  par2[2][4]=-1.54548;
  par3[2][4]=4.99992;

  par0[2][5]=0.0168059;
  par1[2][5]=1.09268;
  par2[2][5]=-0.547554;
  par3[2][5]=0.0952985;

  par0[3][0]=0.158403;
  par1[3][0]=0;
  par2[3][0]=0;
  par3[3][0]=0;

  par0[3][1]=0.0717431;
  par1[3][1]=1.66981;
  par2[3][1]=6.86275;
  par3[3][1]=0.00543544;

  par0[3][2]=0.0385666;
  par1[3][2]=3.6319;
  par2[3][2]=-3.76633;
  par3[3][2]=6.56718e-05;

  par0[3][3]=0.0142631;
  par1[3][3]=8.85991;
  par2[3][3]=-32.6073;
  par3[3][3]=0.00119538;

  par0[3][4]=0.0421638;
  par1[3][4]=3.1289;
  par2[3][4]=-6.58653;
  par3[3][4]=1.10125e-05;

  par0[3][5]=0.046331;
  par1[3][5]=1.29951;
  par2[3][5]=1.76117;
  par3[3][5]=0.00204206;

  par0[4][0]=0.0483944;
  par1[4][0]=0;
  par2[4][0]=0;
  par3[4][0]=0;

  par0[4][1]=0.0168516;
  par1[4][1]=1.19617;
  par2[4][1]=-6.78666;
  par3[4][1]=4.98192;

  par0[4][2]=0.0243039;
  par1[4][2]=0.994626;
  par2[4][2]=-4.26073;
  par3[4][2]=4.99984;

  par0[4][3]=0.031795;
  par1[4][3]=0.875925;
  par2[4][3]=1.43183;
  par3[4][3]=0.0920944;

  par0[4][4]=0.0414953;
  par1[4][4]=0.654605;
  par2[4][4]=4.45367;
  par3[4][4]=0.030385;

  par0[4][5]=0.058031;
  par1[4][5]=0.292915;
  par2[4][5]=8.48307;
  par3[4][5]=0.0134321;

  par0[5][0]=0.107158;
  par1[5][0]=0;
  par2[5][0]=0;
  par3[5][0]=0;

  par0[5][1]=0.021685;
  par1[5][1]=0.574207;
  par2[5][1]=-0.566981;
  par3[5][1]=0.0120609;

  par0[5][2]=0.0196619;
  par1[5][2]=0.940217;
  par2[5][2]=-6.05845;
  par3[5][2]=0.000193818;

  par0[5][3]=0.0324734;
  par1[5][3]=0.574766;
  par2[5][3]=-5.23571;
  par3[5][3]=4.9419;

  par0[5][4]=0.0414953;
  par1[5][4]=0.654605;
  par2[5][4]=4.45367;
  par3[5][4]=0.030385;

  par0[5][5]=0.058031;
  par1[5][5]=0.292915;
  par2[5][5]=8.48307;
  par3[5][5]=0.0134321;


  int iEtaSl = -1;                                                                         
  for (int iEta = 0; iEta < nBinsEta; ++iEta){                                           
    if ( EtaBins[iEta] <= TMath::Abs(eta) && TMath::Abs(eta) <EtaBins[iEta+1] ){             
      iEtaSl = iEta;                                                                         
    }                                                                                        
  }


  int iBremSl = -1;                                                                        
  for (int iBrem = 0; iBrem < nBinsBrem; ++iBrem){                                       
    if ( BremBins[iBrem] <= brem && brem <BremBins[iBrem+1] ){           
      iBremSl = iBrem;                                                                       
    }                                                                                        
  }

  if (TMath::Abs(eta)>2.5) iEtaSl = nBinsEta-1;
  if (brem<BremBins[0]) iBremSl = 0;
  if (brem>BremBins[nBinsBrem-1]) iBremSl = nBinsBrem-1;

  float uncertainty = 0;
  if (et<5) uncertainty = par0[iEtaSl][iBremSl] + par1[iEtaSl][iBremSl]/(5-par2[iEtaSl][iBremSl]) + par3[iEtaSl][iBremSl]/((5-par2[iEtaSl][iBremSl])*(5-par2[iEtaSl][iBremSl]));
  if (et>200) uncertainty = par0[iEtaSl][iBremSl] + par1[iEtaSl][iBremSl]/(200-par2[iEtaSl][iBremSl]) + par3[iEtaSl][iBremSl]/((200-par2[iEtaSl][iBremSl])*(200-par2[iEtaSl][iBremSl]));

  if (et>5 && et<200) uncertainty = par0[iEtaSl][iBremSl] + par1[iEtaSl][iBremSl]/(et-par2[iEtaSl][iBremSl]) + par3[iEtaSl][iBremSl]/((et-par2[iEtaSl][iBremSl])*(et-par2[iEtaSl][iBremSl]));

  return (uncertainty*energy);

}

void EnergyUncertaintyPhotonSpecific::init

(

const edm::EventSetup &

theEventSetup

)

Definition at line 20 of file EnergyUncertaintyPhotonSpecific.cc.

                                                                                 {
 
}