Triggers

The triggers of interest are

  1. HLT_Photon10_L1R
    • L1 Seed: hltL1sRelaxedSingleEgammaEt5
    • Last Filter: hltL1NonIsoHLTNonIsoSinglePhotonEt10HcalIsolFilter
  2. HLT_Photon15_L1R
    • L1 Seed: hltL1sRelaxedSingleEgammaEt8
    • Last Filter: hltL1NonIsoHLTNonIsoSinglePhotonEt15HcalIsoFilter
  3. HLT_Ele10_LW_L1R
    • L1 Seed: hltL1sRelaxedSingleEgammaEt5
    • Last Filter: hltL1NonIsoHLTNonIsoSingleElectronLWEt10PixelMatchFilter
  4. HLT_Ele15_LW_L1R
    • L1 Seed: hltL1sRelaxedSingleEgammaEt8
    • Last Filter: hltL1NonIsoHLTNonIsoSingleElectronLWEt15PixelMatchFilter

Samples

Monte Carlo samples used in the study of electron trigger efficiencies are listed in Table 1.

TABLE 1 Sample Location of PAT Files
ttbar TTbarJets-madgraph-7TeV /castor/cern.ch/user/c/chadwick/TopAna/CMSSW_3_3_1/TTbarJets-madgraph-7TeV

More information about the sample is detailed here.

Trigger Object Matching

To determine the trigger efficiencies, each PAT electron in the MC sample should be matched to an L1 seed or trigger event. This is done in the following way:

  • L1 Seed matching criteria:
    • $\Delta\phi$ < 0.522
    • for $\eta$ < 1.4791, $\Delta\eta$ < 0.261. For $\eta$ > 1.4791, $\Delta\eta$ < 0.5

  • HLT matching criteria:
    • $\Delta R$ < 0.2

The L1 seed matching criteria are derived from Sam Harper's L1 seed matching code, which can be found here. A simple $\Delta R$ matching for the L1 seed runs into trouble in the endcap, where the x-y geometry means that the crystals are large in eta. A more sophisticated, but also more relaxed cut is required here.

ttbar Electron Cuts and Plots

The cuts used are:

  • Tight Cut (Analysis cuts taken from here, excluding $p_{T}$ cut, and with eidRobustTight)
    • $p_{T}$ > 1.0 GeV
    • $|\eta|$ < 1.4442 or 1.5660 < $|\eta|$ < 2.4
    • $d_{0}$ < 0.200 mm
    • ComRelIso < 0.1
    • eidRobustTight

The $p_{T}$ plot overflow has been transferred to the last bin in the histogram.

All efficiency plots were generated by defining a TGraphAsymmErrors in ROOT, and calling the member function BayesDivide(). This function takes two histograms (one the numerator and the other the denominator) and computes the efficiencies, while assigning suitable asymmetric errors using Bayesian statistics. Information about the TGraphAsymmErrors class can be found here, and a paper explaining the computation of the errors (which goes beyond normal binomial distribution errors) can be found here.

Each efficiency plot is fitted with the following function:

$y=\frac{A}{2}(1 + erf(\frac{x - x_{0}}{s\sqrt{x}}))$

In the plots below, p0 = A, p1 = $x_{0}$ and p2 = s. p0 corresponds to the high $p_{T}$ limit of the efficiency, $x_{0}$ the midpoint of the slope, and s the gradient of the slope at $x=x_{0}$.

Transverse Momentum

TABLE 2 HLT_Photon10_L1R HLT_Photon15_L1R HLT_Ele10_LW_L1R HLT_Ele15_LW_L1R
All electrons
L1 Seed to Electrons Efficiency
HLT to Electrons Efficiency
HLT to L1 Seed Efficiency

TABLE 2 HLT_Photon10_L1R HLT_Photon15_L1R HLT_Ele10_LW_L1R HLT_Ele15_LW_L1R
All electrons
L1 Seed to Electrons Efficiency
HLT to Electrons Efficiency
HLT to L1 Seed Efficiency

-- Main.HongwanLiu - 23-Jun-2010

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Topic revision: r2 - 2010-06-23 - HongwanLiu
 
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