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Vladimir Litvin, Toyoko Orimoto Caltech, CMS WG4 Group Meeting 01 June 2007. High energy photon pairs from RS-1 Gravitons: L1/HLT Studies. Introduction. Study to investigate L1 and HLT (in)efficiencies and optimize selection for an express stream for very high energy diphoton events
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Vladimir Litvin, Toyoko Orimoto Caltech, CMS WG4 Group Meeting 01 June 2007 High energy photon pairs from RS-1 Gravitons:L1/HLT Studies
Introduction • Study to investigate L1 and HLT (in)efficiencies and optimize selection for an express stream for very high energy diphoton events • MC Samples: • Produced at Caltech & Fermilab • CMSSW_1_3_1_hlt2 with additional CVS tags: • V00-00-53 HLTrigger/btau • V00-00-26 HLTrigger/xchannel • V01-06-06 RecoLocalTracker/SiPixelClusterizer • V01-00-06 L1Trigger/L1ExtraFromDigis • V02-00-06 L1Trigger/L1ExtraFromMCTruthProd • V00-00-67 HLTrigger/Configuration • CMSSW_1_3_1_hlt3 • No Pileup
MC Samples • Signal RS-1 G: • ~90k events (131_hlt2) and ~80k (131_hlt3) each for 750, 1250, 1000, & 1500 GeV mass samples (with c = 0.1) • Background: • Born: ~100k (131_hlt2) and ~100k (131_hlt3) events • Box: ~300k (131_hlt2) and ~100k (131_hlt3) events • CKIN(1) = 200 GeV • low limit of the invariant mass of the two outgoing photons, with high end is set to infinity • Done intentionally to reduce the number of events to produced while keeping the most useful part of the backgrounds for our studies. born box
Invariant Masses Candidates reconstructed from two Island Basic Clusters from ECAL Barrel/Endcap with pt>(30) 100 GeV 720.5 ± 0.1 15.0 ± 0.2 1443.0 ± 0.3 26.6 ± 0.3 960.5 ± 0.2 19.9 ± 0.2 750 1000 1500 Pt_photons > 30 Pt_photons > 100 box born Still need energy correction
L1 Trigger Efficiencies (131_hlt2) # non-zero L1 bits per event # non-zero L1 bits per event L1 bits set to 1 L1 bits set to 1 750 GeV 1500 GeV 1000 GeV born box
L1 Trigger Efficiencies (131_hlt3) # non-zero L1 bits per event # non-zero L1 bits per event L1 bits set to 1 L1 bits set to 1 750 GeV 1500 GeV 1000 GeV born 1250 GeV box
HLT Efficiencies (131_hlt2) # non-zero HLT bits per event # non-zero HLT bits per event HLT bits set to 1 HLT bits set to 1 750 GeV 1500 GeV 1000 GeV born box
HLT Efficiencies (131_hlt3) # non-zero HLT bits per event # non-zero HLT bits per event HLT bits set to 1 HLT bits set to 1 750 GeV 1500 GeV 1000 GeV born 1250GeV box
HLT Egamma Efficiencies • 131_hlt2: • 131_hlt3:
HLT Egamma Efficiencies • Decrease in EG HLT efficiencies with increasing mass resonance is due to tight cut on energy deposition in HCAL for EG objects… • If E > 6 GeV in HCAL for cluster from ECAL Barrel (8 GeV for ECAL Endcap), then the HLT object is considered *not* an EG object.. • Currently this cut is too tight for our very high energy diphotons • Use HoE cut instead…Will be implemented shortly in CMSSW_1_3_1_hlt4
Selection • Invariant mass, pt cuts • Shape (S1/S9, S9/S25) • ECAL Isolation • HCAL energy deposition • Track Isolation • Jets • Plots will be shown for only 750 GeV sample & born and box backgrounds
ECAL S1/S9 (131_hlt2) Higher energy photon Lower energy photon 750 GeV Pt_photons > 30 Pt_photons > 100 born box Note: this is only for Barrel
ECAL S1/S9 (131_hlt3) Higher energy photon Lower energy photon 750 GeV Pt_photons > 30 Pt_photons > 100 born box Note: this is only for Barrel
ECAL S9/S25 (131_hlt2) Higher energy photon Lower energy photon Pt_photons > 30 Pt_photons > 100 750 GeV born box Note: this is only for Barrel
ECAL S9/S25 (131_hlt3) Higher energy photon Lower energy photon Pt_photons > 30 Pt_photons > 100 750 GeV born box Note: this is only for Barrel
ECAL Isolation (131_hlt2) Higher energy photon Lower energy photon Pt_photons > 30 Pt_photons > 100 750 GeV Energy from basic clusters summed within R cone of 0.3 around basic cluster of photon candidates born box
ECAL Isolation (131_hlt3) Higher energy photon Lower energy photon Pt_photons > 30 Pt_photons > 100 750 GeV Energy from basic clusters summed within R cone of 0.3 around basic cluster of photon candidates born box
HCAL Energy Deposit: HBHE (131_hlt2) Higher energy photon Lower energy photon 750 GeV Pt_photons > 30 Pt_photons > 100 Energy from HCAL Rechits summed within R cone of 0.3 around basic cluster of photon candidate born box
HCAL Energy Deposit: HBHE (131_hlt3) Higher energy photon Lower energy photon 750 GeV Pt_photons > 30 Pt_photons > 100 Energy from HCAL Rechits summed within R cone of 0.3 around basic cluster of photon candidate born box
HCAL Energy Deposit: HO (131_hlt2) Higher energy photon Lower energy photon 750 GeV Pt_photons > 30 Pt_photons > 100 Energy from HCAL Rechits summed within R cone of 0.3 around basic cluster of photon candidate born box
HCAL Energy Deposit: HO (131_hlt3) Higher energy photon Lower energy photon 750 GeV Pt_photons > 30 Pt_photons > 100 Energy from HCAL Rechits summed within R cone of 0.3 around basic cluster of photon candidate born box
Tracker Isolation (131_hlt2) Higher energy photon Lower energy photon Number of tracks (with pt >10) within R cone = 0.3 around basic cluster of photon candidate Check also pt=[3,5] and R=[0.4,0.5] 750 GeV Pt_photons > 30 Pt_photons > 100 born box
Tracker Isolation (131_hlt3) Higher energy photon Lower energy photon Number of tracks (with pt >10) within R cone = 0.3 around basic cluster of photon candidate Check also pt=[3,5] and R=[0.4,0.5] 750 GeV Pt_photons > 30 Pt_photons > 100 born box
Jets (131_hlt2 + pt>30 GeV) eta phi nJets Pt 750 GeV born box
Jets (131_hlt3 + pt>30 GeV) eta phi nJets Pt 750 GeV born box
Next Steps • Production: • CMSSW_1_3_1_hlt4 • Produce gamma+jet and QCD backgrounds with generator preselection (working on filter now) • CompHep events for 2gamma+2jets and gamma+3jets (not the top priority now) • Analysis: • HoE selection • Energy correction
Jets (131_hlt2 + pt>50 GeV) eta phi nJets Pt 750 GeV born box
Jets (131_hlt2 + pt>70 GeV) eta phi nJets Pt 750 GeV born box
Jets (131_hlt3 + pt>50 GeV) eta phi nJets Pt 750 GeV born box