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2008.02.20 Gamma-jet candidates: more statistics from jet-trees

Updated on Fri, 2008-07-11 09:45. Originally created by seluzhen on 2008-06-24 16:13.

Ilya Selyuzhenkov February 20, 2008

Short summary

After processing all available jet-trees for pp2006 (ppProductionLong),
and applying all "gamma-jet" cuts (which are described below):

  • there are 47K di-jet events selected

  • for pt1>7GeV there are 5,4K gamma-jet candidates (3,7K with an additional cut of pt1>pt2)

  • Figure 1: 2,4K events with both pt1, pt2 > 7GeV

  • 721 candidates within a range of pt1>pt2 and both pt1, pt2 > 7 GeV

Data set

jet trees by Murad Sarsour for pp2006 run, number of runs processed: 323
4.7M di-jet events found (no triggerId cuts yet)

Di-jets gross features

  • Figure 2: Distribution of electromagnetic energy (EM) fraction, R_EM, for di-jet events (number of jets/event = 2).
    R_EM = [E_t(endcap)+E_t(barrel)]/E_t(total).
    Black histogram is for R_EM1 = max(Ra, Rb), red is for R_EM2 = min(Ra, Rb).
    Ra and Rb are EM fraction for jets in the di-jet event.
    Same data on a log scale is here.

     

Gamma-jet isolation cuts:

  1. selecting di-jet events with one of the jet dominated by EM energy,
    and another one with more hadronic energy:

    R_EM1 >0.9 and R_EM2 < 0.9

  2. selecting di-jet events with jets pointing opposite in azimuth:

    cos(phi1 - phi2) < -0.9

  3. requiring the number of associated charged tracks with a first jet (with maximum EM fraction) to be less than 2:

    nChargeTracks1 < 2

  4. requiring the number of fired EEMC towers associated with a first jet (with maximum EM fraction) to be 1 or 2:

    0 < nEEMCtowers1 < 3

     

Applying gamma-jet isolation cuts

  • Figure 3: Distribution of eta vs number of EEMC towers for the first jet (with maximum EM fraction).
    Cuts:1-3 applied (no 0 < nEEMCtowers1 < 3 cut).

  • Figure 4: Distribution of transverse momentum, pt1, of the first jet (with maximum EM fraction)
    vs transverse momentum, pt2, of the second jet.
    Cuts:1-4 applied

  • Figure 5: Distribution of mean transverse momentum, < pt1 >, of the first jet (with maximum EM fraction)
    vs transverse momentum, pt2, of the second jet.
    Cuts:1-4 applied

  • Figure 6: Distribution of pseudorapidity, eta1, of the first jet (with maximum EM fraction)
    vs pseudorapidity, eta2, of the second jet.
    Cuts:1-4 applied

  • Figure 7: Distribution of azimuthal angle, phi1, of the first jet (with maximum EM fraction)
    vs azimuthal angle, phi2, of the second jet.
    Cuts:1-4 applied

  • Figure 8: Distribution of transverse momentum, pt1, of the first jet (with maximum EM fraction)
    vs transverse energy sum for the EEMC towers associated with this jet.
    Cuts:1-4 applied

  • Figure 9: Distribution of transverse momentum, pt1, of the first jet (with maximum EM fraction)
    vs transverse momentum, pt2, of the second jet.
    Cuts:1-4 + Et(EEMC) > 3.0 GeV

 

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