1 Threshold Tables Apply thresholds to a handful of physics signals, determine how many events pass single, double object triggers For now, thresholds for double triggers defined as half of the single object threshold Current trigger configurations are tuned so that ZEE and HTT samples provided similar turn-on curves for isoEG and isoTau cases, respectively Type Threshold SLHC rate LHC rate 80% Eff. Point (isoEG) 75% Eff. Point (isoTau) isoEG (single) 30 GeV 8 kHz 28 kHz 37 GeV isoEG (double) 15 GeV 2 kHz 12 kHz 20 GeV isoTau (single) 60 GeV 23 kHz 29 kHz 85 GeV isoTau (double) 30 GeV 5 kHz 29 kHz 45 GeV Cross (isoEG && isoTau 15 GeV (isoEG) 30 GeV 20 GeV (isoEG) 45 GeV (isoTau) Ian Ross - University of Wisconsin
Threshold Tables. Apply thresholds to a handful of physics signals, determine how many events pass single, double object triggers For now, thresholds for double triggers defined as half of the single object threshold - PowerPoint PPT Presentation
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1
Threshold Tables Apply thresholds to a handful of physics signals,
determine how many events pass single, double object triggers For now, thresholds for double triggers defined as half of the
single object threshold Current trigger configurations are tuned so that ZEE and HTT
samples provided similar turn-on curves for isoEG and isoTau cases, respectively
Type Threshold SLHC rate LHC rate 80% Eff. Point (isoEG)75% Eff. Point (isoTau)
isoEG (single) 30 GeV 8 kHz 28 kHz 37 GeV
isoEG (double) 15 GeV 2 kHz 12 kHz 20 GeV
isoTau (single) 60 GeV 23 kHz 29 kHz 85 GeV
isoTau (double) 30 GeV 5 kHz 29 kHz 45 GeV
Cross (isoEG && isoTau
15 GeV (isoEG)30 GeV (isoTau)
20 GeV (isoEG)45 GeV (isoTau)
Ian Ross - University of Wisconsin
2 Ian Ross - University of Wisconsin
Upgrade Study Definitions
Single Eff = (# events with > 1 L1 object above threshold+matched to ‘good’ GEN object)(# events with > 1 ‘good’ GEN object)
Double Eff = (# events with > 2 L1 object above threshold/2+matched to ‘good’ GEN object)(# events with > 2 ‘good’ GEN objects)
Cross Eff =
(# events with > 1 L1 isoEG and > L1 isoTau above thresholds/2+matched to good GEN object)
(# events with > 1 ‘good’ tau and > 1 ‘good’ EG object)
A ‘good’ GEN object has pT above the relevant 80% efficiency point for isoEG (75% for isoTau), |η| < 2.5, and has the desired parent
The displayed efficiencies are the OR of the isoEG and isoTau cases. i.e.
Single Object Eff = (# events passing single isoEG || single isoTau requirements)