2015:groups:sm:nloew
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2015:groups:sm:nloew [2015/11/05 13:40] vitaliano.ciulli |
2015:groups:sm:nloew [2016/02/17 22:30] vitaliano.ciulli |
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| Parameters according to CMS paper [[http://arxiv.org/abs/1505.06520|arXiv.1505.06250]], now published [[http://dx.doi.org/10.1007/JHEP10(2015)128|JHEP 10 (2015) 128]] | Parameters according to CMS paper [[http://arxiv.org/abs/1505.06520|arXiv.1505.06250]], now published [[http://dx.doi.org/10.1007/JHEP10(2015)128|JHEP 10 (2015) 128]] | ||
| + | **NEW!** Link to the Rivet analysis file and plots:{{:2015:groups:tools:cms_2015_i1372730.tar|}} | ||
| + | * There are three plugins: | ||
| + | * CMS_2015_I1372730_Z: Z only plots | ||
| + | * CMS_2015_I1372730_G: gamma only plots | ||
| + | * CMS_2015_I1372730: all plots including ratios | ||
| + | * the plugin with the ratio plots can only be run on a sample with both Z and gamma events with correct relative cross-section | ||
| + | * otherwise to get the ratio plots one should run the first two plugins and then make the ratio (will try to provide a script, but just send the plots to vitaliano.ciulli@cern.ch and I will do it) | ||
| + | |||
| Selection cuts for the ratio plots: | Selection cuts for the ratio plots: | ||
| Line 90: | Line 98: | ||
| * are scale uncertainties correlated among the two processes? | * are scale uncertainties correlated among the two processes? | ||
| * is someone interested in having a Rivet routine which runs at parton level? | * is someone interested in having a Rivet routine which runs at parton level? | ||
| + | |||
| + | Comparison of LO + approx EWK (M. Chiesa et al) to CMS Z/gamma ratio: | ||
| + | * {{:2015:groups:sm:rzg1_alpgen.pdf|V +>= 1 jet}} | ||
| + | * {{:2015:groups:sm:rzg2_alpgen.pdf|V +>= 2 jet}} | ||
| + | * {{:2015:groups:sm:rzg3_alpgen.pdf|V +>= 3 jet}} | ||
| ===== Input parameters ===== | ===== Input parameters ===== | ||
| Line 115: | Line 128: | ||
| | alpha | calculated from G_mu| calculated from G_mu | 1/128.93 | | | alpha | calculated from G_mu| calculated from G_mu | 1/128.93 | | ||
| | MZ_onshell | 91.1876 GeV | 91.1876 GeV | 91.188 GeV | | | MZ_onshell | 91.1876 GeV | 91.1876 GeV | 91.188 GeV | | ||
| - | | GZ_onshell | 2.4952 GeV | 2.4952 GeV | 0 GeV | | + | | GZ_onshell | 2.4952 GeV | 2.4955 GeV | 0 GeV | |
| | MZ_pole, GZ_pole | calculated | - | - | | | MZ_pole, GZ_pole | calculated | - | - | | ||
| | MW_onshell | 80.385 GeV | 80.385 GeV | 80.385 GeV | | | MW_onshell | 80.385 GeV | 80.385 GeV | 80.385 GeV | | ||
| - | | GW_onshell | 2.085 GeV | 2.085 GeV | 0 GeV | | + | | GW_onshell | 2.085 GeV | 2.0897 GeV | 0 GeV | |
| | MW_pole, GW_pole | calculated | - | - | | | MW_pole, GW_pole | calculated | - | - | | ||
| | complex masses | defined from pole masses | defined from on-shell masses | - | | | complex masses | defined from pole masses | defined from on-shell masses | - | | ||
| | mb | 0 GeV | 0 GeV | 0 GeV | | | mb | 0 GeV | 0 GeV | 0 GeV | | ||
| | mt | 173.2 GeV | 173.2 | 173.3 GeV | | | mt | 173.2 GeV | 173.2 | 173.3 GeV | | ||
| - | | Gamma_t | 0 GeV | | 0 GeV | | + | | Gamma_t | 0 GeV | 1.339 | 0 GeV | |
| - | | MH | 125 GeV | 126 GeV | 125 GeV | | + | | MH | 125 GeV | 125 GeV | 125 GeV | |
| - | | Gamma_H | 0 GeV | 4.21 MeV | 0 GeV | | + | | Gamma_H | 0 GeV | 4.07 MeV | 0 GeV | |
| | basic cuts | pt_j > 30 GeV | pt_j > 30 GeV | | | | basic cuts | pt_j > 30 GeV | pt_j > 30 GeV | | | ||
| | | abs(y_j) < 4.5 | abs(eta_j) < 4.5 | | | | | abs(y_j) < 4.5 | abs(eta_j) < 4.5 | | | ||
| - | | | pt_l > 20 GeV | pt_l > 20 GeV | | | + | | | pt_l > 20 GeV | pt_l > 25 GeV | | |
| | | abs(y_l) < 2.5 | abs(eta_l) < 2.5 | | | | | abs(y_l) < 2.5 | abs(eta_l) < 2.5 | | | ||
| - | | | dR_ll > 0.2 | dR_ll > 0.2 | | | + | | | dR_ll > 0.2 | dR_jl > 0.5 | | |
| - | | | dR_jl > 0.5 | dR_jl > 0.5 | | | + | | | dR_jl > 0.5 | M_TW > 40 GeV | | |
| - | | | 66 GeV < M_ll < 116 GeV| M_TW > 20 GeV | | | + | | | 66 GeV < M_ll < 116 GeV| missing_ET > 25 GeV | | |
| - | | | | missing_ET > 30 GeV | | | + | | | | | | |
| - | | cumulative histogram 1 | pT(j1) > 0.25,0.5,0.75,1 TeV| pT(j1) > 1 TeV | pt(H) and pt(t) and pt(tbar) > 200 GeV | | + | | cumulative histogram 1 | pT(j1) > 0.25,0.5,0.75,1 TeV| pT(j1) > 0.5, 1 TeV | pt(H) and pt(t) and pt(tbar) > 200 GeV | |
| - | | cumulative histogram 2 | M_jj > 0.50,1,2,4 TeV | missing_ET > 1 TeV | pt(H) and pt(t) and pt(tbar) > 400 GeV | | + | | cumulative histogram 2 | M_jj > 0.50,1,2,4 TeV | missing_ET > 0.5, 1 TeV | pt(H) and pt(t) and pt(tbar) > 400 GeV | |
| - | | cumulative histogram 3 | pT(l-) > 0.25,0.5,0.75,1 TeV| pT(l) > 1 TeV | pt(H) > 500 GeV | | + | | cumulative histogram 3 | pT(l-) > 0.25,0.5,0.75,1 TeV| pT(l) > 0.5, 1 TeV | pt(H) > 500 GeV | |
| | cumulative histogram 4 | pT(ll) > 0.25,0.5,0.75,1 TeV | | abs( y(t) ) > 2.5 | | | cumulative histogram 4 | pT(ll) > 0.25,0.5,0.75,1 TeV | | abs( y(t) ) > 2.5 | | ||
| - | | cumulative histogram 5 | HT > 0.50,1,1.5,2 TeV | HT > 2 TeV | | | + | | cumulative histogram 5 | HT > 0.50,1,1.5,2 TeV | HT > 0.5,1,2 TeV | | |
| Alternative lljj analysis: same as above with M_ll cut replaced by the following VBF cuts: M_jj > 600 GeV; abs(y_j1-y_j2) < 4.5; y_j1 * y_j2 < 0; min(y_j1,y_j2) < y_l < max(y_j1,y_j2). | Alternative lljj analysis: same as above with M_ll cut replaced by the following VBF cuts: M_jj > 600 GeV; abs(y_j1-y_j2) < 4.5; y_j1 * y_j2 < 0; min(y_j1,y_j2) < y_l < max(y_j1,y_j2). | ||
2015/groups/sm/nloew.txt · Last modified: 2016/03/01 18:04 by vitaliano.ciulli
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