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1 <
2 < [UPDATE]
3 <
4 < The datasets used for this analysis are summarized in
5 < Tables~\ref{tab:DatasetsData} (data) and~\ref{tab:DatasetsMC} (MC).
6 < The total integrated luminosity is \lumi after
7 < applying the official good run list. The main Monte Carlo
8 < samples are generated with Madgraph, though samples with
9 < alternative generators such as Powheg and MC@NLO are also used for
10 < the derivation of systematic uncertainties in the \ttbar~background prediction.
11 < The triggers used to select both the signal and control samples are
12 < also summarized in Table.~\ref{tab:TrigData}.
13 <
14 <
15 < \begin{table}[!ht]
16 < \begin{center}
17 < \begin{tabular}{l}
18 < \hline
19 < Dataset Name   \\
20 < \hline
21 < \hline
22 < Single Lepton Samples \\
23 < \hline
24 <  /SingleElectron/Run2012A-13Jul2012-v1/AOD   \\
25 <  /SingleMu/Run2012A-13Jul2012-v1/AOD   \\
26 <  /SingleElectron/Run2012B-13Jul2012-v1/AOD   \\
27 <  /SingleMu/Run2012B-13Jul2012-v1/AOD   \\
28 <  /SingleElectron/Run2012C-PromptReco-v*/AOD   \\        
29 <  /SingleMu/Run2012C-PromptReco-v*/AOD   \\        
30 < \hline
31 < \hline
32 < Dilepton Samples (only used for dilepton control region)\\
33 < \hline
34 <  /DoubleElectron/Run2012A-13Jul2012-v1/AOD   \\
35 <  /DoubleMu/Run2012A-13Jul2012-v1/AOD   \\
36 <  /MuEG/Run2012A-13Jul2012-v1/AOD   \\
37 <  /DoubleElectron/Run2012B-13Jul2012-v1/AOD   \\
38 <  /DoubleMu/Run2012B-13Jul2012-v1/AOD   \\
39 <  /MuEG/Run2012B-13Jul2012-v1/AOD   \\
40 <  /DoubleElectron/Run2012C-PromptReco-v*/AOD   \\        
41 <  /DoubleMu/Run2012C-PromptReco-v*/AOD   \\        
42 <  /MuEG/Run2012C-PromptReco-v*/AOD   \\        
43 < \hline
44 < \end{tabular}
45 < \caption{Summary of data datasets used.\label{tab:DatasetsData}}
46 < \end{center}
47 < \end{table}
48 <
49 < \begin{table}[!ht]
50 < \begin{center}
51 < {\footnotesize
52 < \begin{tabular}{l|l|c}
53 < \hline
54 < \multicolumn{3}{c}{With Pileup: Processed dataset name is} \\
55 < \multicolumn{3}{c}{(S3) Summer12\_DR53X-PU\_S10\_START53\_V7A-v*/AODSIM} \\
56 < \multicolumn{3}{c}{(S3) Summer11-PU\_S3\_START42\_V11-v*/AODSIM} \\
57 < \hline
58 < %ZZ & \verb=/ZZJetsTo4L_TuneZ2star_8TeV-madgraph-tauola/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=   & 0.1769 \\
59 < %& \verb=/ZZJetsTo2L2Q_TuneZ2star_8TeV-madgraph-tauola/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=     & 2.4487 \\
60 < %& \verb=/ZZJetsTo2L2Nu_TuneZ2star_8TeV-madgraph-tauola/Summer12_DR53X-PU_S10_START53_V7A-v3/AODSIM= & 0.3648 \\
61 < %\hline
62 < %WZ & \verb=/WZJetsTo3LNu_TuneZ2_8TeV-madgraph-tauola/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=    & 1.0575 \\
63 < %& \verb=/WZJetsTo2L2Q_TuneZ2star_8TeV-madgraph-tauola/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=     & 2.206 \\
64 < %\hline
65 < %WW & \verb=/WWJetsTo2L2Nu_TuneZ2star_8TeV-madgraph-tauola/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=    & 5.8123 \\
66 < %\hline
67 < %single top & \verb=/T_tW-channel-DR_TuneZ2star_8TeV-powheg-tauola/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM= & 11.177 \\
68 < %           & \verb=/Tbar_tW-channel-DR_TuneZ2star_8TeV-powheg-tauola/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM= & 11.177 \\
69 < %\hline
70 < %ttV & \verb=/TTZJets_8TeV-madgraph_v2/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=    & 0.208 \\
71 < %& \verb=/TTWJets_8TeV-madgraph/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=    & 0.232 \\
72 < %\hline
73 < %VVV & \verb=/ZZZNoGstarJets_8TeV-madgraph/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=    & 0.01922 \\
74 < %& \verb=/WWWJets_8TeV-madgraph/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=    & 0.08217 \\
75 < %& \verb=/WWZNoGstarJets_8TeV-madgraph/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=   & 0.0633 \\
76 < %%& \verb=/ZZZNoGstarJets_8TeV-madgraph/Summer12_DR53X-PU_S10_START53_V7A-v1/AODSIM=   & 0.01922 \\
77 < Description                     &   Primary Dataset Name   & cross-section [pb]\\
78 < \hline
79 < $\ttbar$                                 &   /TTJets\_MassiveBinDECAY\_TuneZ2Star\_8TeV-madgraph-tauola (S3)                            & 225.2 \\
80 < W $\rightarrow$ $\ell\nu$                &   /WJetsToLNu\_TuneZ2Star\_8TeV-madgraph-tauola (S3)                        &  31314.0 \\
81 < WW                                       &  /WW\_TuneZ2Star\_8TeV\_pythia6\_tauola (S3)                       &   45.6\\
82 < WZ                                       &   /WZ\_TuneZ2Star\_8TeV\_pythia6\_tauola (S3)                       &  18.2 \\
83 < ZZ                                       &  /ZZ\_TuneZ2Star\_8TeV\_pythia6\_tauola (S3)                               &  7.4 \\
84 < $t$ ($s$-chan)                           &   /T\_TuneZ2Star\_s-channel\_8TeV-powheg-tauola (S3)                        &  3.19 \\
85 < $\bar{t}$ ($s$-chan)                     &   /Tbar\_TuneZ2Star\_s-channel\_8TeV-powheg-tauola (S3)                      &  1.44 \\
86 < $t$ ($t$-chan)                           &   /T\_TuneZ2Star\_t-channel\_8TeV-powheg-tauola (S3)                         &  41.92 \\
87 < $\bar{t}$ ($t$-chan)                     &   /Tbar\_TuneZ2Star\_t-channel\_8TeV-powheg-tauola (S3)                      &  22.65 \\
88 < $tW$                                     &   /T\_TuneZ2Star\_tW-channel-DR\_8TeV-powheg-tauola (S3)                     &  7.87 \\
89 < $\bar{t} W$                               &   /Tbar\_TuneZ2Star\_tW-channel-DR\_8TeV-powheg-tauola (S3)                  &  7.87 \\
90 < $\dy \To \ell \ell$      & /DYJetsToLL\_TuneZ2Star\_M-50\_8TeV-madgraph-tarball (S3)                   &  3532.8 \\
91 < $\ttbar W$                                       &   /TTW\_TuneZ2Star\_8TeV-madgraph (S3)                   &  0.1633 \\
92 < $\ttbar Z$                                       &   /TTZ\_TuneZ2Star\_8TeV-madgraph (S3)                   &  0.139 \\
93 < $\ttbar \gamma$                      &   /TTPhoton\_TuneZ2Star\_8TeV-madgraph (S3)            &  0.6545 \\
94 < WW$\gamma$      & /WWPhoton\_TuneZ2Star\_8TeV-madgraph (S3)     &       0.177 \\
95 < WWZ     & /WWZNoGstar\_TuneZ2Star\_8TeV-madgraph (S3)   &       0.0268\\
96 < WWW     & /WWW\_TuneZ2Star\_8TeV-madgraph (S3)  &       0.038 \\
97 < WZZ             & /WZZNoGstar\_TuneZ2Star\_8TeV-madgraph (S3)   & 0.0088 \\
98 < ZZZ             & /ZZZNoGstar\_TuneZ2Star\_8TeV-madgraph (S3)   & 0.00288 \\
99 < $\tilde{t}\bar{\tilde{t}}\rightarrow t\bar{t}\chi^0_1\chi^0_1$ & /SMS-T2tt\_Mstop-225to1200\_mLSP-50to1025\_8TeV-Pythia6Z (S2)            &  scan\\
100 < $\tilde{t}\bar{\tilde{t}}\rightarrow b\bar{b}\chi^+_1\chi^-_1$ & /SMS-T2bw\_x-0p25to0p75\_mStop-50to850\_mLSP-50to800\_8TeV-Pythia6Z (S2)            &  scan \\
101 < \hline
102 < \hline
103 < $\ttbar$ ($Q^2 \times 2$)                                &   /TTjets\_TuneZ2Star\_scaleup\_8TeV-madgraph-tauola (S3)                            & 225.2 \\
104 < $\ttbar$ ($Q^2 \times 0.5$)                             &   /TTjets\_TuneZ2Star\_scaledown\_8TeV-madgraph-tauola (S3)                            & 225.2 \\
105 < $\ttbar$ ($x_q>40~\GeV$)                               &   /TTjets\_TuneZ2Star\_matchingup\_8TeV-madgraph-tauola (S3)                             & 225.2 \\
106 < $\ttbar$ ($x_q>10~\GeV$)                               &   /TTjets\_TuneZ2Star\_matchingdown\_8TeV-madgraph-tauola (S3)                             & 225.2 \\
107 < $\ttbar$ ($m_{\mathrm{top}} = 178.5~\GeV$)       &   /TTJets\_TuneZ2Star\_mass178\_5\_8TeV-madgraph-tauola (S3)                             & 225.2 \\
108 < $\ttbar$ ($m_{\mathrm{top}} = 166.5~\GeV$)       &   /TTJets\_TuneZ2Star\_mass166\_5\_8TeV-madgraph-tauola (S3)                             & 225.2 \\
109 < $\ttbar$                                                         &   /TT\_TuneZ2Star\_8TeV-powheg-tauola (S3)                            & 225.2 \\
110 < %$\ttbar \To \ell \ell \nu \nu$                          &   /TTTo2L2Nu2B\_8TeV-powheg-pythia6 (S3)                              &  16.5 \\
111 < %$\ttbar$                                                        &   /TT\_TuneZ2Star\_8TeV-mcatnlo (S3)                            & 157.5 \\
112 < %$\ttbar$                                                        &   /TT\_TuneZ2Star\_8TeV-pythia6-tauola (S3)                      & 157.5 \\
113 < \hline
114 < \end{tabular}
115 < }
116 < \caption{Summary of Monte Carlo datasets used. TO BE UPDATED.
117 < \label{tab:DatasetsMC}}
118 < \end{center}
119 < \end{table}
120 <
121 < \begin{table}[!ht]
122 < \begin{center}
123 < \begin{tabular}{l}
124 < \hline
125 < \hline
126 < Triggers   \\
127 < \hline
128 < \hline
129 < Single Muon Sample\\
130 < \hline
131 < \footnotesize{\verb=HLT_IsoMu17_v*=}\\
132 < \footnotesize{\verb=HLT_IsoMu24_v*=}\\
133 < \footnotesize{\verb=HLT_IsoMu30_eta2p1_v*=}\\
134 < \hline
135 < Single Electron Sample\\
136 < \hline
137 < \footnotesize{\verb=HLT_Ele25_CaloIdVT_TrkIdT_CentralTriJet30_v*=}\\
138 < \footnotesize{\verb=HLT_Ele25_CaloIdVT_TrkIdT_TriCentralJet30_v*=}\\
139 < \footnotesize{\verb=HLT_Ele25_CaloIdVT_CaloIsoT_TrkIdT_TrkIsoT_TriCentralJet30_v*=}\\
140 < \footnotesize{\verb=HLT_Ele25_CaloIdVT_CaloIsoT_TrkIdT_TrkIsoT_TriCentralPFJet30_v*=}\\
141 < \hline
142 < Dimuon Sample (only used for dilepton control regions)\\
143 < \hline
144 < \footnotesize{\verb=HLT_DoubleMu7_v*=}\\
145 < \footnotesize{\verb=HLT_Mu13_Mu7_v*=}\\
146 < \footnotesize{\verb=HLT_Mu13_Mu8_v*=}\\
147 < \footnotesize{\verb=HLT_Mu17_Mu8_v*=}\\
148 < \hline
149 < Electron-Muon Sample (only used for dilepton control regions)\\
150 < \hline
151 < \footnotesize{\verb=HLT_Mu17_Ele8_CaloIdL_v*=}\\
152 < \footnotesize{\verb=HLT_Mu8_Ele17_CaloIdL_v*=}\\
153 < \footnotesize{\verb=HLT_Mu17_Ele8_CaloIdT_CaloIsoVL_v*=}\\
154 < \footnotesize{\verb=HLT_Mu8_Ele17_CaloIdT_CaloIsoVL_v*=}\\
155 < \hline
156 < Dielectron Sample (only used for dilepton control regions)\\
157 < \hline
158 < \footnotesize{\verb=HLT_Ele17_CaloIdL_CaloIsoVL_Ele8_CaloIdL_CaloIsoVL_v*=}\\
159 < \footnotesize{\verb=HLT_Ele17_CaloIdT_TrkIdVL_CaloIsoVL_TrkIsoVL_Ele8_CaloIdT_TrkIdVL_CaloIsoVL_TrkIsoVL_v*=}\\
160 < \footnotesize{\verb=HLT_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v*=}\\
161 < \hline
162 < \end{tabular}
163 < \caption{Summary of triggers used. TO BE UPDATED
164 < \label{tab:TrigData}}
165 < \end{center}
166 < \end{table}
167 <
168 <
169 <
1 >
2 > [UPDATE]
3 >
4 > The datasets used for this analysis are summarized in
5 > Tables~\ref{tab:DatasetsData} (data) and~\ref{tab:DatasetsMC} (MC).
6 > The total integrated luminosity is \lumi after
7 > applying the official good run list. The main Monte Carlo
8 > samples are generated with Madgraph, though samples with
9 > alternative generators such as Powheg and MC@NLO are also used for
10 > the derivation of systematic uncertainties in the \ttbar~background prediction.
11 > The triggers used to select both the signal and control samples are
12 > also summarized in Table.~\ref{tab:TrigData}.
13 >
14 > \begin{table}[!ht]
15 > \begin{center}
16 > \begin{tabular}{l}
17 > \hline
18 > Dataset Name   \\
19 > \hline
20 > \hline
21 > Single Lepton Samples \\
22 > \hline
23 >  /SingleElectron/Run2012A-13Jul2012-v1/AOD   \\
24 >  /SingleMu/Run2012A-13Jul2012-v1/AOD   \\
25 >  /SingleElectron/Run2012B-13Jul2012-v1/AOD   \\
26 >  /SingleMu/Run2012B-13Jul2012-v1/AOD   \\
27 >  /SingleElectron/Run2012C-PromptReco-v*/AOD   \\        
28 >  /SingleMu/Run2012C-PromptReco-v*/AOD   \\        
29 > \hline
30 > \hline
31 > Dilepton Samples (only used for dilepton control region)\\
32 > \hline
33 >  /DoubleElectron/Run2012A-13Jul2012-v1/AOD   \\
34 >  /DoubleMu/Run2012A-13Jul2012-v1/AOD   \\
35 >  /MuEG/Run2012A-13Jul2012-v1/AOD   \\
36 >  /DoubleElectron/Run2012B-13Jul2012-v1/AOD   \\
37 >  /DoubleMu/Run2012B-13Jul2012-v1/AOD   \\
38 >  /MuEG/Run2012B-13Jul2012-v1/AOD   \\
39 >  /DoubleElectron/Run2012C-PromptReco-v*/AOD   \\        
40 >  /DoubleMu/Run2012C-PromptReco-v*/AOD   \\        
41 >  /MuEG/Run2012C-PromptReco-v*/AOD   \\        
42 > \hline
43 > \end{tabular}
44 > \caption{Summary of data datasets used.\label{tab:DatasetsData}}
45 > \end{center}
46 > \end{table}
47 >
48 > \begin{table}[!ht]
49 > \begin{center}
50 > {\footnotesize
51 > \begin{tabular}{l|l|c}
52 > \hline
53 > \multicolumn{3}{c}{With Pileup: Processed dataset name is} \\
54 > \multicolumn{3}{c}{(53) Summer12\_DR53X-PU\_S10\_START53\_V7A-v*/AODSIM} \\
55 > \multicolumn{3}{c}{(52) Summer12-START52\_V9\_FSIM-v*/AODSIM} \\
56 > \hline
57 > Description                     &   Primary Dataset Name   & cross-section [pb]\\
58 > \hline
59 > $\ttbar$                                                         &   /TT\_CT10\_TuneZ2Star\_8TeV-powheg-tauola (53)                            & 225.2 \\
60 > W $\rightarrow$ $\ell\nu$                &   /WJetsToLNu\_TuneZ2Star\_8TeV-madgraph-tauola (53)                        &  37509 \\
61 > W $\rightarrow$ $\ell\nu$+3 jets                 &   /W3JetsToLNu\_TuneZ2Star\_8TeV-madgraph-tauola (53)                        &  640 \\
62 > W $\rightarrow$ $\ell\nu$+$\geq 4$ jets        &   /W4JetsToLNu\_TuneZ2Star\_8TeV-madgraph-tauola (53)                        &  264 \\
63 > WW      & /WWJetsTo2L2Nu\_TuneZ2star\_8TeV-madgraph-tauola (53) &   5.8\\
64 > WZ      & /WZJetsTo3LNu\_TuneZ2\_8TeV-madgraph-tauola (53)              &   1.1\\
65 >        & /WZJetsTo2L2Q\_TuneZ2star\_8TeV-madgraph-tauola (53           &   1.1\\
66 > ZZ      & /ZZJetsTo2L2Nu\_TuneZ2star\_8TeV-madgraph-tauola (53)         &   0.4\\
67 >        & /ZZJetsTo4L\_TuneZ2star\_8TeV-madgraph-tauola (53)            &   0.2\\
68 >        & /ZZJetsTo2L2Q\_TuneZ2star\_8TeV-madgraph-tauola (53           &   2.4\\
69 > $t$ ($s$-chan)                           &   /T\_TuneZ2Star\_s-channel\_8TeV-powheg-tauola (53)                        &  3.9 \\
70 > $\bar{t}$ ($s$-chan)                     &   /Tbar\_TuneZ2Star\_s-channel\_8TeV-powheg-tauola (53)                      &  1.8 \\
71 > $t$ ($t$-chan)                           &   /T\_TuneZ2Star\_t-channel\_8TeV-powheg-tauola (53)                         &  55.5 \\
72 > $\bar{t}$ ($t$-chan)                     &   /Tbar\_TuneZ2Star\_t-channel\_8TeV-powheg-tauola (53)                      &  30.0 \\
73 > $tW$                                     &   /T\_TuneZ2Star\_tW-channel-DR\_8TeV-powheg-tauola (53)                     &  11.2 \\
74 > $\bar{t} W$                               &   /Tbar\_TuneZ2Star\_tW-channel-DR\_8TeV-powheg-tauola (53)                  &  11.2 \\
75 > $\dy \To \ell \ell$      & /DYJetsToLL\_TuneZ2Star\_M-50\_8TeV-madgraph-tarball (53)                   &  3532.8 \\
76 > $\dy \To \ell \ell$+$\geq 4$ jets       & /DY4JetsToLL\_TuneZ2Star\_M-50\_8TeV-madgraph-tarball (53)                   &  27.6 \\
77 > $\ttbar W$                                       &   /TTW\_TuneZ2Star\_8TeV-madgraph (53)                   &  0.23 \\
78 > $\ttbar Z$                                       &   /TTZ\_TuneZ2Star\_8TeV-madgraph (53)                   &  0.21 \\
79 > $\ttbar \gamma$                      &   /TTGJets\_TuneZ2Star\_8TeV-madgraph (53)            &  0.65 \\
80 > WWW     & /WWW\_TuneZ2Star\_8TeV-madgraph (53)  &       0.08 \\
81 > WWZ     & /WWZNoGstar\_TuneZ2Star\_8TeV-madgraph (53)   & 0.06\\
82 > WZZ             & /WZZNoGstar\_TuneZ2Star\_8TeV-madgraph (53)   & 0.01 \\
83 > ZZZ             & /ZZZNoGstar\_TuneZ2Star\_8TeV-madgraph (53)   & 0.02 \\
84 > $\tilde{t}\bar{\tilde{t}}\rightarrow t\bar{t}\chi^0_1\chi^0_1$ & /SMS-T2tt\_FineBin\_Mstop-225to1200\_mLSP-0to1000\_8TeV-Pythia6Z (52)            &  scan\\
85 > $\tilde{t}\bar{\tilde{t}}\rightarrow b\bar{b}\chi^+_1\chi^-_1$ & /SMS-T2bw\_FineBin\_Mstop-100to600\_mLSP-0to500\_8TeV-Pythia6Z (52)            &  scan \\
86 > \hline
87 > \hline
88 > $\ttbar$                                 &   /TTJets\_MassiveBinDECAY\_TuneZ2Star\_8TeV-madgraph-tauola (53)                            & 225.2 \\
89 > $\ttbar$ ($Q^2 \times 2$)                                &   /TTjets\_TuneZ2Star\_scaleup\_8TeV-madgraph-tauola (53)                            & 225.2 \\
90 > $\ttbar$ ($Q^2 \times 0.5$)                             &   /TTjets\_TuneZ2Star\_scaledown\_8TeV-madgraph-tauola (53)                            & 225.2 \\
91 > $\ttbar$ ($x_q>40~\GeV$)                               &   /TTjets\_TuneZ2Star\_matchingup\_8TeV-madgraph-tauola (53)                             & 225.2 \\
92 > $\ttbar$ ($x_q>10~\GeV$)                               &   /TTjets\_TuneZ2Star\_matchingdown\_8TeV-madgraph-tauola (53)                             & 225.2 \\
93 > $\ttbar$ ($m_{\mathrm{top}} = 178.5~\GeV$)       &   /TTJets\_TuneZ2Star\_mass178\_5\_8TeV-madgraph-tauola (53)                             & 225.2 \\
94 > $\ttbar$ ($m_{\mathrm{top}} = 166.5~\GeV$)       &   /TTJets\_TuneZ2Star\_mass166\_5\_8TeV-madgraph-tauola (53)                             & 225.2 \\
95 > %$\ttbar \To \ell \ell \nu \nu$                          &   /TTTo2L2Nu2B\_8TeV-powheg-pythia6 (S3)                              &  16.5 \\
96 > %$\ttbar$                                                        &   /TT\_TuneZ2Star\_8TeV-mcatnlo (S3)                            & 157.5 \\
97 > %$\ttbar$                                                        &   /TT\_TuneZ2Star\_8TeV-pythia6-tauola (S3)                      & 157.5 \\
98 > \hline
99 > \end{tabular}
100 > }
101 > \caption{Summary of Monte Carlo datasets used. CHECK TRIBOSON XSEC
102 > \label{tab:DatasetsMC}}
103 > \end{center}
104 > \end{table}
105 >
106 > \begin{table}[!ht]
107 > \begin{center}
108 > \begin{tabular}{l}
109 > \hline
110 > \hline
111 > Triggers   \\
112 > \hline
113 > \hline
114 > Single Muon Sample\\
115 > \footnotesize{\verb=HLT_IsoMu24_v*=}\\
116 > \footnotesize{\verb=HLT_IsoMu24_eta2p1_v*=}\\
117 > \hline
118 > Single Electron Sample\\
119 > \hline
120 > \footnotesize{\verb=HLT_Ele27_WP80_v*=}\\
121 > \hline
122 > Dilepton Sample (only used for dilepton control regions)\\
123 > \hline
124 > \footnotesize{\verb=HLT_Mu17_Mu8_v*=}\\
125 > \footnotesize{\verb=HLT_Mu17_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v*=}\\
126 > \footnotesize{\verb=HLT_Mu8_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL*=}\\
127 > \footnotesize{\verb=HLT_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v*=}\\
128 > \hline
129 > \end{tabular}
130 > \caption{Summary of triggers used.
131 > \label{tab:TrigData}}
132 > \end{center}
133 > \end{table}
134 >
135 >
136 >

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