Jet Energy Corrections for Multiple Cone Sizes

Performance Plots for 2014

The plots below document the JEC performance for studies done using a range of jet radii (R=0.2 to R=1.0 in steps of 0.1).

The Detector Performance Summary note can be found at (to be filled in).


Figure Caption

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.3

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.4

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.5

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.6

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.7

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.8

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.9

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, before pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=1.0

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.3

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.4

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.5

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.6

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.7

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.8

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=0.9

The offset is defined as the difference in transverse momentum for a reconstructed jet with pileup and the same jet without pileup added. These plots show the offset, after pileup corrections, plotted against the generated transverse momentum for the same jets. The different markers represent different levels of pileup as measured by the true number of pileup interactions added to the event. This plot is for Anti-kT PFchs jets with a radius of R=1.0

Rate of data and MC PU jets with pt>25GeV relative to the expected rate of real jets as a function of the number of reconstructed primary vertices. This plot was already approved for JME-13-005 (public twiki).

MC-Truth L2L3 corrections for Anti-kT PFJets as a function of jet pseudorapidity for three reference transverse momentum values: 30 GeV (left), 100 GeV (middle) and 1000 GeV (right). Each color and marker type represent a different jet radius ranging from R=0.2 to R=1.0 in steps of 0.1

The response (jet transverse momentum over generator jet transverse momentum) as a function of the generator jet transverse momentum. The jets used are fully corrected (L1FastJet, L2Relative, L3Absolute). This is for abs(eta)<1.3

The response (jet transverse momentum over generator jet transverse momentum) as a function of the generator jet transverse momentum. The jets used are fully corrected (L1FastJet, L2Relative, L3Absolute). This is for 1.3<abs(eta)<2.5

The response (jet transverse momentum over generator jet transverse momentum) as a function of the generator jet transverse momentum. The jets used are fully corrected (L1FastJet, L2Relative, L3Absolute). This is for 2.5<abs(eta)<3.0

The response (jet transverse momentum over generator jet transverse momentum) as a function of the generator jet transverse momentum. The jets used are fully corrected (L1FastJet, L2Relative, L3Absolute). This is for 3.0<abs(eta)<5.0

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.2

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.3

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.4

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.5

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.6

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.7

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.8

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=0.9

The resolution of the response of the jets vs gen jet transverse momentum in bins of μ. This plot is for Anti-kT PFchs jets with a radius of R=1.0

The response resolution as a function of cone size for a given gen jet transverse momentum bin and μ bin. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. The different colors represent the four different detector regions. This plot is for the 30 GeV<pT<35 GeV and 10<μ<20 bins.

The response resolution as a function of cone size for a given gen jet transverse momentum and μ bin. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. The different colors represent the four different detector regions. This plot is for the 90 GeV<pT<120 GeV and 10<μ<20 bins.

The response resolution as a function of cone size for a given gen jet transverse momentum and μ bin. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. The different colors represent the four different detector regions. This plot is for the 1000 GeV<pT<1500 GeV and 10<μ<20 bins.

The response resolution as a function of cone size for a given gen jet transverse momentum bin and μ bin. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. The different colors represent the four different detector regions. This plot is for the 30 GeV<pT<35 GeV and 30<μ<40 bins.

The response resolution as a function of cone size for a given gen jet transverse momentum and μ bin. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. The different colors represent the four different detector regions. This plot is for the 90 GeV<pT<120 GeV and 30<μ<40 bins.

The response resolution as a function of cone size for a given gen jet transverse momentum and μ bin. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. The different colors represent the four different detector regions. This plot is for the 1000 GeV<pT<1500 GeV and 30<μ<40 bins.

The optimal cone size in bins of μ and transverse momentum. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. This plot contains all μ bins but only 30 GeV<pT<35 GeV.

The optimal cone size in bins of μ and transverse momentum. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. This plot contains all μ bins but only 90 GeV<pT<120 GeV.

The optimal cone size in bins of μ and transverse momentum. The optimal cone size (for each detector region) is chosen as the one with the smallest response resolution. This plot contains all μ bins but only 1000 GeV<pT<1500 GeV.

Plot of the parameters of the fits to the resolution vs. μ x A. The fits to the resolution can be broken into a noise term (N, black), a stochastic term (S, red), and a constant term (C, blue). The stochastic and constant terms do not change significantly with μ times A. However, the noise term does change. It should be noted that N=sqrt(N_0*abs(N_0)+sigma_PU^2*μ*A) from the formula. S and C are exactly as they appear in the formula. This plot contains the peramters averaged over cone radii R=0.2 through R=1.0 and includes both PF and PFchs jets. The plot is for the barrel region (abs(η)<1.3).

-- AlexxPerloff - 06 Aug 2014

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PDFpdf ResolutionTnpuRef_versionB_1000GeV.pdf r1 manage 12.8 K 2014-08-13 - 11:04 AlexxPerloff Optimal cone size in bins of mu and pT
PNGpng ResolutionTnpuRef_versionB_1000GeV.png r1 manage 83.4 K 2014-08-13 - 11:04 AlexxPerloff Optimal cone size in bins of mu and pT
PDFpdf ResolutionTnpuRef_versionB_100GeV.pdf r1 manage 13.8 K 2014-08-13 - 11:04 AlexxPerloff Optimal cone size in bins of mu and pT
PNGpng ResolutionTnpuRef_versionB_100GeV.png r1 manage 95.9 K 2014-08-13 - 11:04 AlexxPerloff Optimal cone size in bins of mu and pT
PDFpdf ResolutionTnpuRef_versionB_30GeV.pdf r1 manage 13.6 K 2014-08-13 - 11:04 AlexxPerloff Optimal cone size in bins of mu and pT
PNGpng ResolutionTnpuRef_versionB_30GeV.png r1 manage 95.5 K 2014-08-13 - 11:04 AlexxPerloff Optimal cone size in bins of mu and pT
PDFpdf jerplots_ParFits_Combined.pdf r1 manage 18.6 K 2014-08-13 - 11:06 AlexxPerloff Fit parameters of the resolution fits vs mu x A
PNGpng jerplots_ParFits_Combined.png r1 manage 166.4 K 2014-08-13 - 11:06 AlexxPerloff Fit parameters of the resolution fits vs mu x A
PDFpdf jetRate25NPV.pdf r1 manage 105.6 K 2014-08-13 - 10:17 AlexxPerloff Rate of data and MC PU jets with pt>25GeV relative to the expected rate of real jets as a function of the number of reconstructed primary vertices.
PNGpng jetRate25NPV.png r1 manage 105.6 K 2014-08-13 - 10:17 AlexxPerloff Rate of data and MC PU jets with pt>25GeV relative to the expected rate of real jets as a function of the number of reconstructed primary vertices.
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Topic revision: r6 - 2014-09-28 - MikkoVoutilainen
 
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