DETECTOR CARD // DO NOT REMOVE THIS IS A TAG! # any line containing a dash symbol (#) will be completely ignored, whatever the position of this symbol # Detector extension, in pseudorapidity units CEN_max_tracker 2.5 // Maximum tracker coverage CEN_max_calo_cen 1.7 // central calorimeter coverage CEN_max_calo_ec 3.0 // calorimeter endcap coverage CEN_max_calo_fwd 5.0 // forward calorimeter pseudorapidity coverage CEN_max_mu 2.4 // muon chambers pseudorapidity coverage # Energy resolution for electron/photon in central/endcap/fwd/zdc calos # \sigma/E = C + N/E + S/\sqrt{E}, E in GeV ELG_Scen 0.05 // S term for central ECAL ELG_Ncen 0.25 // N term ELG_Ccen 0.005 // C term ELG_Sec 0.05 // S term for ECAL endcap ELG_Nec 0.25 // N term ELG_Cec 0.005 // C term ELG_Sfwd 2.084 // S term for FCAL ELG_Nfwd 0.0 // N term ELG_Cfwd 0.107 // C term ELG_Szdc 0.70 // S term for ZDC ELG_Nzdc 0.0 // N term ELG_Czdc 0.08 // C term # Energy resolution for hadrons in central/endcap/fwd/zdc calos # \sigma/E = C + N/E + S/\sqrt{E}, E in GeV HAD_Scen 1.5 // S term for central HCAL HAD_Ncen 0. // N term HAD_Ccen 0.05 // C term HAD_Sec 1.5 // S term for HCAL endcap HAD_Nec 0. // N term HAD_Cec 0.05 // C term HAD_Sfwd 2.7 // S term for FCAL HAD_Nfwd 0. // N term HAD_Cfwd 0.13 // C term HAD_Szdc 1.38 // S term for ZDC HAD_Nzdc 0. // N term HAD_Czdc 0.13 // C term # Time resolution for ZDC/RP220/RP420 ZDC_T_resolution 0 // in s RP220_T_resolution 0 // in s RP420_T_resolution 0 // in s # Muon smearing MU_SmearPt 0.01 // transverse momentum Pt in GeV # Tracking efficiencies TRACK_ptmin 0.9 // minimal pt needed to reach the calorimeter in GeV TRACK_eff 90 // efficiency associated to the tracking (%) # Calorimetric towers TOWER_number 40 TOWER_eta_edges 0. 0.087 0.174 0.261 0.348 0.435 0.522 0.609 0.696 0.783 0.870 0.957 1.044 1.131 1.218 1.305 1.392 1.479 1.566 1.653 1.740 1.830 1.930 2.043 2.172 2.322 2.500 2.650 2.868 2.950 3.125 3.300 3.475 3.650 3.825 4.000 4.175 4.350 4.525 4.700 5.000 ## list of the edges of each tower in eta for eta>0 assuming a symmetric detector in eta<0 ### the list starts with the lower edge of the most central tower ### the list ends with the higher edged of the most forward tower ### there should be NTOWER+1 values TOWER_dphi 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 20 20 ### list of the tower size in phi (in degrees), assuming that all towers are similar in phi for a given eta value ### the list starts with the phi-size of the most central tower (eta=0) ### the list ends with the phi-size of the most forward tower ### there should be NTOWER values ## # # Thresholds for reconstructed objects, Pt in GeV PTCUT_elec 10.0 PTCUT_muon 10.0 PTCUT_jet 20.0 PTCUT_gamma 10.0 PTCUT_taujet 10.0 # Thresholds for reconstructed objects in ZDC, E in GeV ZDC_gamma_E 20 ZDC_n_E 50 # Charged lepton isolation. Pt and Et in GeV ISOL_trk_PT 2.0 //minimal pt of tracks for isolation criteria ISOL_trk_Cone 0.5 //Cone for isolation criteria ISOL_calo_Cone 0.5 //Cone for isolation criteria ISOL_calo_ET 0.5 //minimal tower transverse energy for isolation criteria. ISOL_calo_Grid 3 //Grid size (N x N) for calorimetric isolation # General jet variable JET_coneradius 0.7 // generic jet radius ; not for tau's !!! JET_jetalgo 6 // Jet algorithms: 1 CDFJetClu, 2 MidPoint, 3 SIScone, 4 kt, 5 Cambridge/Aachen, 6 antikt JET_seed 1.0 // minimum seed to start jet reconstruction, in GeV JET_Eflow 1 // Perfect energy assumed in the tracker coverage # b-(mis)tagging efficiencies # pt dependence for b-tagging and mistag # see http://root.cern.ch/root/html/TFormula.html for syntax # e.g. BTAG_func_b 0.4*(1-exp(-x)) # in case of no explicit dependence, on x (=PT) or y (=eta), you MUST add "+0*x" and/or "+0*y" # e.g. BTAG_func_g 0.01 + 0*x + 0*y # put 'x' for pt ; range: [0, 9E6 GeV/c] # put 'y' for eta ; range [-CEN_max_tracker ; CEN_max_tracker ] # never put any blank in the formula BTAG_func_b 0.4+TMath::Gaus(x,0,8)+TMath::Gaus(y,2,1) // formula for Pt dependence of the b-tag efficiency (b-jets) BTAG_func_c 0.1+0*x+0*y // formula for Pt dependence of the mistag efficiency (c-jets) BTAG_func_g 0.01+0*x+0*y // (gluon-jets) BTAG_func_l 0.01+0*x+0*y // (light-jets) # FLAGS FLAG_bfield 1 //1 to run the bfield propagation else 0 FLAG_vfd 1 //1 to run the very forward detectors else 0 FLAG_RP 1 //1 to run the very forward detectors else 0 FLAG_trigger 1 //1 to run the trigger selection else 0 FLAG_frog 1 //1 to run the FROG event display FLAG_lhco 0 //1 to run the LHCO # In case BField propagation allowed TRACK_radius 129 //radius of the BField coverage, in cm TRACK_length 300 //half-length of the BField coverage, in cm TRACK_bfield_x 0 //X component of the BField, in T TRACK_bfield_y 0 //Y component of the BField, in T TRACK_bfield_z 3.8 //Z component of the BField, in T # Very forward detector extension, in pseudorapidity # if allowed VFD_min_calo_vfd 5.2 // very forward calorimeter (if any) like CASTOR VFD_max_calo_vfd 6.6 VFD_min_zdc 8.3 // zero-degree neutral calorimeter VFD_s_zdc 140 // distance of the Zero Degree Calorimeter, from the IP, in [m] #Hector parameters RP_220_s 220 // distance of the RP to the IP, in meters RP_220_x 0.002 // distance of the RP to the beam, in meters RP_420_s 420 // distance of the RP to the IP, in meters RP_420_x 0.004 // distance of the RP to the beam, in meters RP_beam1Card data/LHCB1IR5_v6.500.tfs // beam optics file, beam 1 RP_beam2Card data/LHCB2IR5_v6.500.tfs // beam optics file, beam 2 RP_IP_name IP5 // tag for IP in Hector ; 'IP1' for ATLAS RP_offsetEl_x 0.097 // horizontal separation between both beam, in meters RP_offsetEl_y 0 // vertical separation between both beam, in meters RP_offsetEl_s 120 // distance of beam separation point, from IP RP_cross_x -500 // IP offset in horizontal plane, in micrometers RP_cross_y 0 // IP offset in vertical plane, in micrometers RP_cross_ang_x 142.5 // half-crossing angle in horizontal plane, in microrad RP_cross_ang_y 0 // half-crossing angle in vertical plane, in microrad # In case FROG event display allowed NEvents_Frog 100 # Number of events to process NEvents 100 // -1 means 'all' # input PDG tables PdgTableFilename data/particle.tbl // table with particle pid,mass,charge,...