Jet veto effect (sigma_n-sigma_(n+1))/(sigma_n); sigma(n+1)/sigma(n)) versus ptmin of additional jets (on top of the n-jet requirement): 5 GeV bins from 0-100 GeV→using the constant 40(30) GeV cut, correct?
pt of the leading jet (10 GeV bins from 30 to 100 GeV, 20 GeV bins from 100-500 GeV, 50 GeV bins from 500-1000 GeV, 100 GeV bins from 1000-2000 GeV,200 GeV bins from 2000-4000 GeV)
pt of the second jet (same binning)
pt of W: same binning as pt of the leading jet, except that 10 GeV bins from 0 to 100 GeV
HT: scalar sum of pts of jets above the pt cut, lepton and missing ET: 50 GeV/c bins from 0-500 GeV/c, 100 GeV/c bins from 500-1000 GeV/c, 200 GeV/c bins from 1000-2000 GeV/c, 500 GeV/c bins from 2000-10000 GeV/c
HTjet (ST): scalar sum of pts of jets above the pt cut
Deltay_FB: rapidity difference between most forward and backward jets: [0,12], bin size 0.5
Average no. of jets per event versus Deltay_FB: [0,8], bin size 0.5
Jet veto efficiency (sigma3-jet/sigma2-jet) versus Deltay_FB: [0,8], bin size 0.5
Jet veto effect (sigma_n-sigma_(n+1))/(sigma_n); sigma(n+1)/sigma(n)) versus ptmin of additional jets (on top of the n-jet requirement): 5 GeV bins from 0-100 GeV→using the constant 40(30) GeV cut, correct?
pt of the leading jet (10 GeV/c bins from 20 to 100 GeV/c, 20 GeV/c bins from 100-500 GeV/c, 50 GeV/c bins from 500-1000 GeV/c, 100 GeV/c bins from 1000-2000 GeV, 200 GeV from 2000-4000 GeV)
pt of the second jet (same binning)
pt of the W (same binning except 10 GeV bins from 0 to 100 GeV)
HT: scalar sum of pts of jets above the pt cut, lepton and missing ET: 50 GeV/c bins from 0-500 GeV/c, 100 GeV/c bins from 500-1000 GeV/c, 200 GeV/c bins from 1000-2000 GeV/c, 500 GeV/c bins from 2000-10000 GeV/c
HTjet (ST): scalar sum of pts of jets above the pt cut (same binning)