cmsnotes/StopSearch/datasets.tex


The datasets used for this analysis are summarized in 
Tables~\ref{tab:DatasetsData} (data) and~\ref{tab:DatasetsMC} (MC).
The total integrated luminosity is \lumi after
applying the official good run list. The main Monte Carlo
samples are generated with Madgraph, though samples with
alternative generators such as Powheg and MC@NLO are also used for
the derivation of systematic uncertainties in the \ttbar~background prediction. 
The triggers used to select both the signal and control samples are
also summarized in Table.~\ref{tab:TrigData}.

\begin{table}[!ht]
\begin{center}
\begin{tabular}{l}
\hline
Dataset Name   \\
\hline
\hline
Single Lepton Samples \\
\hline
/ElectronHad/Run2011A-May10ReReco-v1/AOD \\
/SingleMu/Run2011A-May10ReReco-v1/AOD \\
/ElectronHad/Run2011A-05Aug2011-v1/AOD \\
/SingleMu/Run2011A-05Aug2011-v1/AOD \\
/ElectronHad/Run2011A-PromptReco-v*/AOD \\
/SingleMu/Run2011A-PromptReco-v*/AOD \\
/ElectronHad/Run2011B-PromptReco-v1/AOD \\
/SingleMu/Run2011B-PromptReco-v1/AOD \\
\hline
\hline
Dilepton Samples (only used for dilepton control region)\\
\hline
/MuEG/Run2011A-PromptReco-v*/AOD   \\
/DoubleMu/Run2011A-PromptReco-v*/AOD   \\
/SingleMu/Run2011A-PromptReco-v*/AOD   \\
/DoubleElectron/Run2011A-PromptReco-v*/AOD   \\
/DoubleElectron/Run2011B-PromptReco-v1/AOD   \\
/DoubleMu/Run2011B-PromptReco-v1/AOD   \\
/MuEG/Run2011B-PromptReco-v1/AOD   \\
/SingleMu/Run2011B-PromptReco-v1/AOD   \\
/SingleElectron/Run2011B-PromptReco-v1/AOD   \\
\hline
\end{tabular}
\caption{Summary of data datasets used.\label{tab:DatasetsData}}
\end{center}
\end{table}

\begin{table}[!ht]
\begin{center}
{\footnotesize
\begin{tabular}{l|l|c}
\hline
\multicolumn{3}{c}{With Pileup: Processed dataset name is} \\
\multicolumn{3}{c}{(S) Summer11-PU\_S4\_START42\_V11-v*/AODSIM} \\
\multicolumn{3}{c}{(F) Fall11-PU\_S6\_START42\_V14B-v*/AODSIM} \\
\multicolumn{3}{c}{(S3) Summer11-PU\_S3\_START42\_V11-v*/AODSIM} \\
\hline
 Description                     &   Primary Dataset Name   & cross-section [pb]\\
\hline
$\ttbar$                                 &   /TTJets\_TuneZ2\_7TeV-madgraph-tauola (F)                            & 157.5 \\
W $\rightarrow$ $\ell\nu$                &   /WJetsToLNu\_TuneZ2\_7TeV-madgraph-tauola (S)                        &  31314.0 \\
 WW                                      &  /WW\_TuneZ2\_7TeV\_pythia6\_tauola (S)                       &   45.6\\
WZ                                       &   /WZ\_TuneZ2\_7TeV\_pythia6\_tauola (S)                       &  18.2 \\
ZZ                                       &  /ZZ\_TuneZ2\_7TeV\_pythia6\_tauola (S)                               &  7.4 \\
$t$ ($s$-chan)                           &   /T\_TuneZ2\_s-channel\_7TeV-powheg-tauola (S)                        &  3.19 \\
$\bar{t}$ ($s$-chan)                     &   /Tbar\_TuneZ2\_s-channel\_7TeV-powheg-tauola (S)                      &  1.44 \\
$t$ ($t$-chan)                           &   /T\_TuneZ2\_t-channel\_7TeV-powheg-tauola (S)                         &  41.92 \\
$\bar{t}$ ($t$-chan)                     &   /Tbar\_TuneZ2\_t-channel\_7TeV-powheg-tauola (S)                      &  22.65 \\
$tW$                                     &   /T\_TuneZ2\_tW-channel-DR\_7TeV-powheg-tauola (S)                     &  7.87 \\
$\bar{t} W$                               &   /Tbar\_TuneZ2\_tW-channel-DR\_7TeV-powheg-tauola (S)                  &  7.87 \\
$\dy \To \ell \ell$      & /DYJetsToLL\_TuneZ2\_M-50\_7TeV-madgraph-tauola (S)                   &  3048.0 \\
$\ttbar W$                                       &   /TTW\_TuneZ2\_7TeV-madgraph (S)                   &  0.1633 \\
$\ttbar Z$                                       &   /TTZ\_TuneZ2\_7TeV-madgraph (S)                   &  0.139 \\
$\ttbar \gamma$                      &   /TTPhoton\_TuneZ2\_7TeV-madgraph (S)            &  0.6545 \\
WW$\gamma$      & /WWPhoton\_TuneZ2\_7TeV-madgraph (S)  &       0.177 \\
WWZ     & /WWZNoGstar\_TuneZ2\_7TeV-madgraph (S)        &       0.0268\\
WWW     & /WWW\_TuneZ2\_7TeV-madgraph (S)       &       0.038 \\
WZZ             & /WZZNoGstar\_TuneZ2\_7TeV-madgraph (S)        & 0.0088 \\
ZZZ             & /ZZZNoGstar\_TuneZ2\_7TeV-madgraph (S)        & 0.00288 \\
$\tilde{t}\bar{\tilde{t}}\rightarrow t\bar{t}\chi^0_1\chi^0_1$ & /SMS-T2tt\_Mstop-225to1200\_mLSP-50to1025\_7TeV-Pythia6Z (S)            &  scan\\
$\tilde{t}\bar{\tilde{t}}\rightarrow b\bar{b}\chi^+_1\chi^-_1$ & /SMS-T2bw\_x-0p25to0p75\_mStop-50to850\_mLSP-50to800\_7TeV-Pythia6Z (S)            &  scan \\
\hline
\hline
$\ttbar$ ($Q^2 \times 2$)                                &   /TTjets\_TuneZ2\_scaleup\_7TeV-madgraph-tauola (F)                            & 157.5 \\
$\ttbar$ ($Q^2 \times 0.5$)                             &   /TTjets\_TuneZ2\_scaledown\_7TeV-madgraph-tauola (F)                            & 157.5 \\
$\ttbar$ ($x_q>40~\GeV$)                               &   /TTjets\_TuneZ2\_matchingup\_7TeV-madgraph-tauola (F)                             & 157.5 \\
$\ttbar$ ($x_q>10~\GeV$)                               &   /TTjets\_TuneZ2\_matchingdown\_7TeV-madgraph-tauola (S)                             & 157.5 \\
$\ttbar$ ($m_{\mathrm{top}} = 178.5~\GeV$)       &   /TTJets\_TuneZ2\_mass178\_5\_7TeV-madgraph-tauola (S)                             & 157.5 \\
$\ttbar$ ($m_{\mathrm{top}} = 166.5~\GeV$)       &   /TTJets\_TuneZ2\_mass166\_5\_7TeV-madgraph-tauola (S)                             & 157.5 \\
$\ttbar$                                                         &   /TT\_TuneZ2\_7TeV-powheg-tauola (S)                            & 157.5 \\
$\ttbar \To \ell \ell \nu \nu$                          &   /TTTo2L2Nu2B\_7TeV-powheg-pythia6 (S)                              &  16.5 \\
$\ttbar$                                                         &   /TT\_TuneZ2\_7TeV-mcatnlo (F)                            & 157.5 \\
$\ttbar$                                                         &   /TT\_TuneZ2\_7TeV-pythia6-tauola (S3)                      & 157.5 \\
\hline
\end{tabular}
}
\caption{Summary of Monte Carlo datasets used.\label{tab:DatasetsMC}}
\end{center}
\end{table}

\begin{table}[!ht]
\begin{center}
\begin{tabular}{l}
\hline
\hline
Triggers   \\
\hline
\hline
Single Muon Sample\\
\hline
\footnotesize{\verb=HLT_IsoMu17_v*=}\\
\footnotesize{\verb=HLT_IsoMu24_v*=}\\
\footnotesize{\verb=HLT_IsoMu30_eta2p1_v*=}\\
\hline
Single Electron Sample\\
\hline
\footnotesize{\verb=HLT_Ele25_CaloIdVT_TrkIdT_CentralTriJet30_v*=}\\
\footnotesize{\verb=HLT_Ele25_CaloIdVT_TrkIdT_TriCentralJet30_v*=}\\
\footnotesize{\verb=HLT_Ele25_CaloIdVT_CaloIsoT_TrkIdT_TrkIsoT_TriCentralJet30_v*=}\\
\footnotesize{\verb=HLT_Ele25_CaloIdVT_CaloIsoT_TrkIdT_TrkIsoT_TriCentralPFJet30_v*=}\\
\hline
Dimuon Sample (only used for dilepton control region)\\
\hline
\footnotesize{\verb=HLT_DoubleMu7_v*=}\\
\footnotesize{\verb=HLT_Mu13_Mu7_v*=}\\
\footnotesize{\verb=HLT_Mu13_Mu8_v*=}\\
\footnotesize{\verb=HLT_Mu17_Mu8_v*=}\\
\hline
Electron-Muon Sample (only used for dilepton control region)\\
\hline
\footnotesize{\verb=HLT_Mu17_Ele8_CaloIdL_v*=}\\
\footnotesize{\verb=HLT_Mu8_Ele17_CaloIdL_v*=}\\
\footnotesize{\verb=HLT_Mu17_Ele8_CaloIdT_CaloIsoVL_v*=}\\
\footnotesize{\verb=HLT_Mu8_Ele17_CaloIdT_CaloIsoVL_v*=}\\
\hline
Dielectron Sample (only used for dilepton control region)\\
\hline
\footnotesize{\verb=HLT_Ele17_CaloIdL_CaloIsoVL_Ele8_CaloIdL_CaloIsoVL_v*=}\\
\footnotesize{\verb=HLT_Ele17_CaloIdT_TrkIdVL_CaloIsoVL_TrkIsoVL_Ele8_CaloIdT_TrkIdVL_CaloIsoVL_TrkIsoVL_v*=}\\
\footnotesize{\verb=HLT_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v*=}\\
\hline
\end{tabular}
\caption{Summary of triggers used.\label{tab:TrigData}}
\end{center}
\end{table}


Revision:	1.6
Committed:	Mon Jul 2 05:49:42 2012 UTC (12 years, 10 months ago) by fkw
Content type:	application/x-tex
Branch:	MAIN
Changes since 1.5:	+4 -4 lines
Log Message:	minor changes in text
#	User	Rev	Content
1	benhoob	1.1
2	vimartin	1.3	The datasets used for this analysis are summarized in
3	benhoob	1.5	Tables~\ref{tab:DatasetsData} (data) and~\ref{tab:DatasetsMC} (MC).
4			The total integrated luminosity is \lumi after
5			applying the official good run list. The main Monte Carlo
6	vimartin	1.3	samples are generated with Madgraph, though samples with
7			alternative generators such as Powheg and MC@NLO are also used for
8			the derivation of systematic uncertainties in the \ttbar~background prediction.
9			The triggers used to select both the signal and control samples are
10			also summarized in Table.~\ref{tab:TrigData}.
11	benhoob	1.1
12	vimartin	1.3	\begin{table}[!ht]
13			\begin{center}
14	benhoob	1.5	\begin{tabular}{l}
15	vimartin	1.3	\hline
16	benhoob	1.5	Dataset Name \\
17	vimartin	1.3	\hline
18			\hline
19	benhoob	1.5	Single Lepton Samples \\
20	vimartin	1.3	\hline
21	benhoob	1.5	/ElectronHad/Run2011A-May10ReReco-v1/AOD \\
22			/SingleMu/Run2011A-May10ReReco-v1/AOD \\
23			/ElectronHad/Run2011A-05Aug2011-v1/AOD \\
24			/SingleMu/Run2011A-05Aug2011-v1/AOD \\
25			/ElectronHad/Run2011A-PromptReco-v*/AOD \\
26			/SingleMu/Run2011A-PromptReco-v*/AOD \\
27			/ElectronHad/Run2011B-PromptReco-v1/AOD \\
28			/SingleMu/Run2011B-PromptReco-v1/AOD \\
29			\hline
30			\hline
31	fkw	1.6	Dilepton Samples (only used for dilepton control region)\\
32	benhoob	1.5	\hline
33			/MuEG/Run2011A-PromptReco-v*/AOD \\
34			/DoubleMu/Run2011A-PromptReco-v*/AOD \\
35			/SingleMu/Run2011A-PromptReco-v*/AOD \\
36			/DoubleElectron/Run2011A-PromptReco-v*/AOD \\
37			/DoubleElectron/Run2011B-PromptReco-v1/AOD \\
38			/DoubleMu/Run2011B-PromptReco-v1/AOD \\
39			/MuEG/Run2011B-PromptReco-v1/AOD \\
40			/SingleMu/Run2011B-PromptReco-v1/AOD \\
41			/SingleElectron/Run2011B-PromptReco-v1/AOD \\
42	vimartin	1.3	\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	benhoob	1.5	\begin{tabular}{l\|l\|c}
52	vimartin	1.3	\hline
53			\multicolumn{3}{c}{With Pileup: Processed dataset name is} \\
54			\multicolumn{3}{c}{(S) Summer11-PU\_S4\_START42\_V11-v*/AODSIM} \\
55			\multicolumn{3}{c}{(F) Fall11-PU\_S6\_START42\_V14B-v*/AODSIM} \\
56			\multicolumn{3}{c}{(S3) Summer11-PU\_S3\_START42\_V11-v*/AODSIM} \\
57			\hline
58			Description & Primary Dataset Name & cross-section [pb]\\
59			\hline
60			$\ttbar$ & /TTJets\_TuneZ2\_7TeV-madgraph-tauola (F) & 157.5 \\
61			W $\rightarrow$ $\ell\nu$ & /WJetsToLNu\_TuneZ2\_7TeV-madgraph-tauola (S) & 31314.0 \\
62			WW & /WW\_TuneZ2\_7TeV\_pythia6\_tauola (S) & 45.6\\
63			WZ & /WZ\_TuneZ2\_7TeV\_pythia6\_tauola (S) & 18.2 \\
64			ZZ & /ZZ\_TuneZ2\_7TeV\_pythia6\_tauola (S) & 7.4 \\
65			$t$ ($s$-chan) & /T\_TuneZ2\_s-channel\_7TeV-powheg-tauola (S) & 3.19 \\
66			$\bar{t}$ ($s$-chan) & /Tbar\_TuneZ2\_s-channel\_7TeV-powheg-tauola (S) & 1.44 \\
67			$t$ ($t$-chan) & /T\_TuneZ2\_t-channel\_7TeV-powheg-tauola (S) & 41.92 \\
68			$\bar{t}$ ($t$-chan) & /Tbar\_TuneZ2\_t-channel\_7TeV-powheg-tauola (S) & 22.65 \\
69			$tW$ & /T\_TuneZ2\_tW-channel-DR\_7TeV-powheg-tauola (S) & 7.87 \\
70			$\bar{t} W$ & /Tbar\_TuneZ2\_tW-channel-DR\_7TeV-powheg-tauola (S) & 7.87 \\
71			$\dy \To \ell \ell$ & /DYJetsToLL\_TuneZ2\_M-50\_7TeV-madgraph-tauola (S) & 3048.0 \\
72			$\ttbar W$ & /TTW\_TuneZ2\_7TeV-madgraph (S) & 0.1633 \\
73			$\ttbar Z$ & /TTZ\_TuneZ2\_7TeV-madgraph (S) & 0.139 \\
74			$\ttbar \gamma$ & /TTPhoton\_TuneZ2\_7TeV-madgraph (S) & 0.6545 \\
75			WW$\gamma$ & /WWPhoton\_TuneZ2\_7TeV-madgraph (S) & 0.177 \\
76			WWZ & /WWZNoGstar\_TuneZ2\_7TeV-madgraph (S) & 0.0268\\
77			WWW & /WWW\_TuneZ2\_7TeV-madgraph (S) & 0.038 \\
78			WZZ & /WZZNoGstar\_TuneZ2\_7TeV-madgraph (S) & 0.0088 \\
79			ZZZ & /ZZZNoGstar\_TuneZ2\_7TeV-madgraph (S) & 0.00288 \\
80			$\tilde{t}\bar{\tilde{t}}\rightarrow t\bar{t}\chi^0_1\chi^0_1$ & /SMS-T2tt\_Mstop-225to1200\_mLSP-50to1025\_7TeV-Pythia6Z (S) & scan\\
81			$\tilde{t}\bar{\tilde{t}}\rightarrow b\bar{b}\chi^+_1\chi^-_1$ & /SMS-T2bw\_x-0p25to0p75\_mStop-50to850\_mLSP-50to800\_7TeV-Pythia6Z (S) & scan \\
82			\hline
83			\hline
84			$\ttbar$ ($Q^2 \times 2$) & /TTjets\_TuneZ2\_scaleup\_7TeV-madgraph-tauola (F) & 157.5 \\
85			$\ttbar$ ($Q^2 \times 0.5$) & /TTjets\_TuneZ2\_scaledown\_7TeV-madgraph-tauola (F) & 157.5 \\
86			$\ttbar$ ($x_q>40~\GeV$) & /TTjets\_TuneZ2\_matchingup\_7TeV-madgraph-tauola (F) & 157.5 \\
87			$\ttbar$ ($x_q>10~\GeV$) & /TTjets\_TuneZ2\_matchingdown\_7TeV-madgraph-tauola (S) & 157.5 \\
88			$\ttbar$ ($m_{\mathrm{top}} = 178.5~\GeV$) & /TTJets\_TuneZ2\_mass178\_5\_7TeV-madgraph-tauola (S) & 157.5 \\
89			$\ttbar$ ($m_{\mathrm{top}} = 166.5~\GeV$) & /TTJets\_TuneZ2\_mass166\_5\_7TeV-madgraph-tauola (S) & 157.5 \\
90			$\ttbar$ & /TT\_TuneZ2\_7TeV-powheg-tauola (S) & 157.5 \\
91			$\ttbar \To \ell \ell \nu \nu$ & /TTTo2L2Nu2B\_7TeV-powheg-pythia6 (S) & 16.5 \\
92			$\ttbar$ & /TT\_TuneZ2\_7TeV-mcatnlo (F) & 157.5 \\
93			$\ttbar$ & /TT\_TuneZ2\_7TeV-pythia6-tauola (S3) & 157.5 \\
94			\hline
95			\end{tabular}
96	benhoob	1.2	}
97	vimartin	1.3	\caption{Summary of Monte Carlo datasets used.\label{tab:DatasetsMC}}
98			\end{center}
99			\end{table}
100
101			\begin{table}[!ht]
102			\begin{center}
103	benhoob	1.5	\begin{tabular}{l}
104	vimartin	1.3	\hline
105			\hline
106			Triggers \\
107			\hline
108			\hline
109			Single Muon Sample\\
110			\hline
111			\footnotesize{\verb=HLT_IsoMu17_v*=}\\
112			\footnotesize{\verb=HLT_IsoMu24_v*=}\\
113			\footnotesize{\verb=HLT_IsoMu30_eta2p1_v*=}\\
114			\hline
115			Single Electron Sample\\
116			\hline
117			\footnotesize{\verb=HLT_Ele25_CaloIdVT_TrkIdT_CentralTriJet30_v*=}\\
118			\footnotesize{\verb=HLT_Ele25_CaloIdVT_TrkIdT_TriCentralJet30_v*=}\\
119			\footnotesize{\verb=HLT_Ele25_CaloIdVT_CaloIsoT_TrkIdT_TrkIsoT_TriCentralJet30_v*=}\\
120			\footnotesize{\verb=HLT_Ele25_CaloIdVT_CaloIsoT_TrkIdT_TrkIsoT_TriCentralPFJet30_v*=}\\
121			\hline
122	fkw	1.6	Dimuon Sample (only used for dilepton control region)\\
123	vimartin	1.3	\hline
124			\footnotesize{\verb=HLT_DoubleMu7_v*=}\\
125			\footnotesize{\verb=HLT_Mu13_Mu7_v*=}\\
126			\footnotesize{\verb=HLT_Mu13_Mu8_v*=}\\
127			\footnotesize{\verb=HLT_Mu17_Mu8_v*=}\\
128			\hline
129	fkw	1.6	Electron-Muon Sample (only used for dilepton control region)\\
130	vimartin	1.3	\hline
131			\footnotesize{\verb=HLT_Mu17_Ele8_CaloIdL_v*=}\\
132			\footnotesize{\verb=HLT_Mu8_Ele17_CaloIdL_v*=}\\
133			\footnotesize{\verb=HLT_Mu17_Ele8_CaloIdT_CaloIsoVL_v*=}\\
134			\footnotesize{\verb=HLT_Mu8_Ele17_CaloIdT_CaloIsoVL_v*=}\\
135			\hline
136	fkw	1.6	Dielectron Sample (only used for dilepton control region)\\
137	vimartin	1.3	\hline
138			\footnotesize{\verb=HLT_Ele17_CaloIdL_CaloIsoVL_Ele8_CaloIdL_CaloIsoVL_v*=}\\
139			\footnotesize{\verb=HLT_Ele17_CaloIdT_TrkIdVL_CaloIsoVL_TrkIsoVL_Ele8_CaloIdT_TrkIdVL_CaloIsoVL_TrkIsoVL_v*=}\\
140			\footnotesize{\verb=HLT_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v*=}\\
141			\hline
142			\end{tabular}
143			\caption{Summary of triggers used.\label{tab:TrigData}}
144			\end{center}
145			\end{table}
146
147
148