Exemple #1
0
void rochcor::momcor_data( TLorentzVector& mu, float charge, float sysdev, int runopt, float& qter){
  
  float ptmu = mu.Pt();

  float muphi = mu.Phi();
  float mueta = mu.Eta(); // same with mu.Eta() in Root

  float px = mu.Px();
  float py = mu.Py();
  float pz = mu.Pz();
  float e = mu.E();
  
  int mu_phibin = phibin(muphi);
  int mu_etabin = etabin(mueta);
  
  //float mptsys1 = sran.Gaus(0.0,sysdev);
  
  float dm = 0.0;
  float da = 0.0;
  
  if(runopt==0){
    dm = (dcor_bfA[mu_phibin][mu_etabin] + mptsys_da_dm[mu_phibin][mu_etabin]*dcor_bfAer[mu_phibin][mu_etabin])/dmavgA[mu_phibin][mu_etabin];
    da = dcor_maA[mu_phibin][mu_etabin] + mptsys_da_da[mu_phibin][mu_etabin]*dcor_maAer[mu_phibin][mu_etabin];
  }else if(runopt==1){
    dm = (dcor_bfB[mu_phibin][mu_etabin] + mptsys_da_dm[mu_phibin][mu_etabin]*dcor_bfBer[mu_phibin][mu_etabin])/dmavgB[mu_phibin][mu_etabin];
    da = dcor_maB[mu_phibin][mu_etabin] + mptsys_da_da[mu_phibin][mu_etabin]*dcor_maBer[mu_phibin][mu_etabin];
  }
  
  float cor = 1.0/(1.0 + dm + charge*da*ptmu);
  
  px *= cor;
  py *= cor;
  pz *= cor;
  e  *= cor;
  
  //after Z pt correction
  float recm = 0.0;
  float gscler = 0.0;
  
  if(runopt==0){
    recm = drecmA;
    gscler = TMath::Sqrt( TMath::Power(dgsclA_stat,2) + TMath::Power(dgsclA_syst,2) );
  }else if(runopt==1){
    recm = drecmB;
    gscler = TMath::Sqrt( TMath::Power(dgsclB_stat,2) + TMath::Power(dgsclB_syst,2) );
  }
  
  float gscl = (genm_smr/recm);
  
  px *= (gscl + gscler_da_dev*gscler);
  py *= (gscl + gscler_da_dev*gscler);
  pz *= (gscl + gscler_da_dev*gscler);
  e  *= (gscl + gscler_da_dev*gscler);
  
  float momscl = sqrt(px*px + py*py)/ptmu;
  qter *= momscl;

  mu.SetPxPyPzE(px,py,pz,e);
  
}
Exemple #2
0
void rochcor2012::momcor_mc( TLorentzVector& mu, float charge, float sysdev, int runopt,bool sync=false){
  
  //sysdev == num : deviation = num

  float ptmu = mu.Pt();
  float muphi = mu.Phi();
  float mueta = mu.Eta(); // same with mu.Eta() in Root

  float px = mu.Px();
  float py = mu.Py();
  float pz = mu.Pz();
  float e = mu.E();

  int mu_phibin = phibin(muphi);
  int mu_etabin = etabin(mueta);

  //float mptsys = sran.Gaus(0.0,sysdev);
  
  float dm = (mcor_bf[mu_phibin][mu_etabin] + mptsys_mc_dm[mu_phibin][mu_etabin]*mcor_bfer[mu_phibin][mu_etabin])/mmavg[mu_phibin][mu_etabin];
  float da = mcor_ma[mu_phibin][mu_etabin] + mptsys_mc_da[mu_phibin][mu_etabin]*mcor_maer[mu_phibin][mu_etabin];
  
  float cor = 1.0/(1.0 + dm + charge*da*ptmu);

  //for the momentum tuning - eta,phi,Q correction
  px *= cor;
  py *= cor;
  pz *= cor;
  e *= cor;
  
  float gscler = 0.0;
  float deltaer = 0.0;
  float sfer = 0.0;
  
  gscler = TMath::Sqrt( TMath::Power(mgscl_stat,2) + TMath::Power(mgscl_syst,2) );
  deltaer = TMath::Sqrt( TMath::Power(delta_stat,2) + TMath::Power(delta_syst,2) );
  sfer = TMath::Sqrt( TMath::Power(sf_stat,2) + TMath::Power(sf_syst,2) );

  float tune;
  if (sync) tune = 1.0/(1.0 + (delta + sysdev*deltaer)*sqrt(px*px + py*py)*(1.0 + (sf + sysdev*sfer)));
  else tune = 1.0/(1.0 + (delta + sysdev*deltaer)*sqrt(px*px + py*py)*eran.Gaus(1.0,(sf + sysdev*sfer)));
  
  px *= (tune);
  py *= (tune);
  pz *= (tune);
  e *= (tune);
  
  float gscl = (genm_smr/mrecm);
  
  px *= (gscl + gscler_mc_dev*gscler);
  py *= (gscl + gscler_mc_dev*gscler);
  pz *= (gscl + gscler_mc_dev*gscler);
  e *= (gscl + gscler_mc_dev*gscler);

  mu.SetPxPyPzE(px,py,pz,e);
  
}
Exemple #3
0
void rochcor2012::momcor_mc( TLorentzVector& mu, float charge, float sysdev, int runopt, float& qter){
  
  //sysdev == num : deviation = num

  float ptmu = mu.Pt();
  float muphi = mu.Phi();
  float mueta = mu.Eta(); // same with mu.Eta() in Root

  float px = mu.Px();
  float py = mu.Py();
  float pz = mu.Pz();
  float e = mu.E();

  int mu_phibin = phibin(muphi);
  int mu_etabin = etabin(mueta);

  //float mptsys = sran.Gaus(0.0,sysdev);
  
  float Mf = (mcor_bf[mu_phibin][mu_etabin] + mptsys_mc_dm[mu_phibin][mu_etabin]*mcor_bfer[mu_phibin][mu_etabin])/(mpavg[mu_phibin][mu_etabin]+mmavg[mu_phibin][mu_etabin]);
  float Af = ((mcor_ma[mu_phibin][mu_etabin]+mptsys_mc_da[mu_phibin][mu_etabin]*mcor_maer[mu_phibin][mu_etabin]) - Mf*(mpavg[mu_phibin][mu_etabin]-mmavg[mu_phibin][mu_etabin]));     
  
  float cor = 1.0/(1.0 + 2.0*Mf + charge*Af*ptmu);
  
  //for the momentum tuning - eta,phi,Q correction
  px *= cor;
  py *= cor;
  pz *= cor;
  e  *= cor;
  
  float gscler = mgscl_stat;
  float deltaer = delta_stat;
  float sfer = sf_stat;
    
  float gscl = (genm_smr/mrecm);
  
  px *= (gscl + gscler_mc_dev*gscler);
  py *= (gscl + gscler_mc_dev*gscler);
  pz *= (gscl + gscler_mc_dev*gscler);
  e  *= (gscl + gscler_mc_dev*gscler);
  
  float momscl = sqrt(px*px + py*py)/ptmu;
  
  float tune = 1.0/(1.0 + (delta + sysdev*deltaer)*sqrt(px*px + py*py)*eran.Gaus(1.0,(sf + sysdev*sfer)));
  
  px *= (tune); 
  py *= (tune);  
  pz *= (tune);  
  e  *= (tune);   
  
  qter *= (momscl*momscl + (1.0-tune)*(1.0-tune));
  
  mu.SetPxPyPzE(px,py,pz,e);
  
}
void rochcor2012::momcor_data( TLorentzVector& mu, float charge, int runopt, float& qter){
  
  float ptmu = mu.Pt();

  float muphi = mu.Phi();
  float mueta = mu.Eta(); // same with mu.Eta() in Root

  float px = mu.Px();
  float py = mu.Py();
  float pz = mu.Pz();
  float e = mu.E();
  
  int mu_phibin = phibin(muphi);
  int mu_etabin = etabin(mueta);

  float Mf = 0.0;
  float Af = 0.0;

  if(runopt==0){
    Mf = (dcor_bf[mu_phibin][mu_etabin]+mptsys_da_dm[mu_phibin][mu_etabin]*dcor_bfer[mu_phibin][mu_etabin])/(dpavg[mu_phibin][mu_etabin]+dmavg[mu_phibin][mu_etabin]);
    Af = ((dcor_ma[mu_phibin][mu_etabin]+mptsys_da_da[mu_phibin][mu_etabin]*dcor_maer[mu_phibin][mu_etabin]) - Mf*(dpavg[mu_phibin][mu_etabin]-dmavg[mu_phibin][mu_etabin]));     
  }else if(runopt==1){
    Mf = (dcor_bfD[mu_phibin][mu_etabin]+mptsys_da_dm[mu_phibin][mu_etabin]*dcor_bfDer[mu_phibin][mu_etabin])/(dpavgD[mu_phibin][mu_etabin]+dmavgD[mu_phibin][mu_etabin]);
    Af = ((dcor_maD[mu_phibin][mu_etabin]+mptsys_da_da[mu_phibin][mu_etabin]*dcor_maDer[mu_phibin][mu_etabin]) - Mf*(dpavgD[mu_phibin][mu_etabin]-dmavgD[mu_phibin][mu_etabin]));     
  }
  
  float cor = 1.0/(1.0 + 2.0*Mf + charge*Af*ptmu);
  
  px *= cor;
  py *= cor;
  pz *= cor;
  e  *= cor;
  
  //after Z pt correction
  float gscler = dgscl_stat;
  float gscl = (genm_smr/drecm);
  
  px *= (gscl + gscler_da_dev*gscler);
  py *= (gscl + gscler_da_dev*gscler);
  pz *= (gscl + gscler_da_dev*gscler);
  e  *= (gscl + gscler_da_dev*gscler);
  
  float momscl = sqrt(px*px + py*py)/ptmu;
  qter *= momscl;
  
  mu.SetPxPyPzE(px,py,pz,e);
  
}
Exemple #5
0
void rochcor::momcor_data( TLorentzVector& mu, float charge, float sysdev, int runopt){
  
  float ptmu = mu.Pt();

  float muphi = mu.Phi();
  float mueta = mu.Eta(); // same with mu.Eta() in Root

  float px = mu.Px();
  float py = mu.Py();
  float pz = mu.Pz();
  float e = mu.E();
  
  int mu_phibin = phibin(muphi);
  int mu_etabin = etabin(mueta);
  
  //float mptsys1 = sran.Gaus(0.0,sysdev);
  
  float dm = (dcor_bf[mu_phibin][mu_etabin] + mptsys_da_dm[mu_phibin][mu_etabin]*dcor_bfer[mu_phibin][mu_etabin])/dmavg[mu_phibin][mu_etabin];
  float da = dcor_ma[mu_phibin][mu_etabin] + mptsys_da_da[mu_phibin][mu_etabin]*dcor_maer[mu_phibin][mu_etabin];
  
  float cor = 1.0/(1.0 + dm + charge*da*ptmu);
  
  px *= cor;
  py *= cor;
  pz *= cor;
  e  *= cor;
  
  //after Z pt correction
  float gscler = 0.0;
  
  gscler = TMath::Sqrt( TMath::Power(dgscl_stat,2) + TMath::Power(dgscl_syst,2) );
  
  float gscl = (genm_smr/drecm);
  
  px *= (gscl + gscler_da_dev*gscler);
  py *= (gscl + gscler_da_dev*gscler);
  pz *= (gscl + gscler_da_dev*gscler);
  e  *= (gscl + gscler_da_dev*gscler);
  
  mu.SetPxPyPzE(px,py,pz,e);
  
}
Exemple #6
0
void rochcor_42X::momcor_mc( TLorentzVector& mu, float charge, float sysdev, int runopt){
  
  //sysdev == num : deviation = num

  float ptmu = mu.Pt();
  float muphi = mu.Phi();
  float mueta = mu.Eta(); // same with mu.Eta() in Root

  float px = mu.Px();
  float py = mu.Py();
  float pz = mu.Pz();
  float e = mu.E();

  int mu_phibin = phibin(muphi);
  int mu_etabin = etabin(mueta);

  //float mptsys = sran.Gaus(0.0,sysdev);
  
  float dm = 0.0;
  float da = 0.0;
  
  if(runopt == 0){
    dm = (mcor_bfA[mu_phibin][mu_etabin] + mptsys_mc_dm[mu_phibin][mu_etabin]*mcor_bfAer[mu_phibin][mu_etabin])/mmavgA[mu_phibin][mu_etabin];
    da = mcor_maA[mu_phibin][mu_etabin] + mptsys_mc_da[mu_phibin][mu_etabin]*mcor_maAer[mu_phibin][mu_etabin];
  }else if(runopt == 1){
    dm = (mcor_bfB[mu_phibin][mu_etabin] + mptsys_mc_dm[mu_phibin][mu_etabin]*mcor_bfBer[mu_phibin][mu_etabin])/mmavgB[mu_phibin][mu_etabin];
    da = mcor_maB[mu_phibin][mu_etabin] + mptsys_mc_da[mu_phibin][mu_etabin]*mcor_maBer[mu_phibin][mu_etabin];
  }
  
  float cor = 1.0/(1.0 + dm + charge*da*ptmu);
  
  //for the momentum tuning - eta,phi,Q correction
  px *= cor;
  py *= cor;
  pz *= cor;
  e  *= cor;
  
  float recm = 0.0;
  float drecm = 0.0; 
  float delta = 0.0;
  float sf = 0.0;

  float gscler = 0.0;
  float deltaer = 0.0;
  float sfer = 0.0;
  
  if(runopt==0){
    recm = recmA;
    drecm = drecmA;
    
    delta = deltaA;
    sf = sfA;
    
    gscler = TMath::Sqrt( TMath::Power(mgsclA_stat,2) + TMath::Power(mgsclA_syst,2) );
    deltaer = TMath::Sqrt( TMath::Power(deltaA_stat,2) + TMath::Power(deltaA_syst,2) );
    sfer = TMath::Sqrt( TMath::Power(sfA_stat,2) + TMath::Power(sfA_syst,2) );
  }else if(runopt==1){
    recm = recmB;
    drecm = drecmB;
    
    delta = deltaB;
    sf = sfB;
    
    gscler = TMath::Sqrt( TMath::Power(mgsclB_stat,2) + TMath::Power(mgsclB_syst,2) );
    deltaer = TMath::Sqrt( TMath::Power(deltaB_stat,2) + TMath::Power(deltaB_syst,2) );
    sfer = TMath::Sqrt( TMath::Power(sfB_stat,2) + TMath::Power(sfB_syst,2) );
  }
  
  float tune = 1.0/(1.0 + (delta + sysdev*deltaer)*sqrt(px*px + py*py)*eran.Gaus(1.0,(sf + sysdev*sfer)));
  
  px *= (tune); 
  py *= (tune);  
  pz *= (tune);  
  e  *= (tune);   
      
  float gscl = (genm_smr/recm);
  
  px *= (gscl + sysdev*gscler);
  py *= (gscl + sysdev*gscler);
  pz *= (gscl + sysdev*gscler);
  e  *= (gscl + sysdev*gscler);
  
  mu.SetPxPyPzE(px,py,pz,e);
  
}