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1	+	%HOOBERMAN: I think this is updated already...
2	+	%[UPDATE]
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4	<	\section{Datasets and Triggers}
5	<	\label{sec:datasets}
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.
8	>	The main \ttbar\ Monte Carlo
9	>	sample is generated with Powheg since this sample has the largest number of events,
10	>	though samples with alternative generators such as Madgraph %and MC@NLO
11	>	are also used for
12	>	the derivation of systematic uncertainties in the \ttbar~background prediction.
13	>	The triggers used to select both the signal and control samples are
14	>	also summarized in Table~\ref{tab:TrigData}.
15	>
16	>	\begin{table}[!ht]
17	>	\begin{center}
18	>	\begin{tabular}{l}
19	>	\hline
20	>	Dataset Name   \\
21	>	\hline
22	>	\hline
23	>	Single Lepton Samples \\
24	>	\hline
25	>	/SingleElectron/Run2012A-13Jul2012-v1/AOD   \\
26	>	/SingleMu/Run2012A-13Jul2012-v1/AOD   \\
27	>	/SingleElectron/Run2012B-13Jul2012-v1/AOD   \\
28	>	/SingleMu/Run2012B-13Jul2012-v1/AOD   \\
29	>	/SingleElectron/Run2012C-PromptReco-v1/AOD   \\
30	>	/SingleMu/Run2012C-PromptReco-v1/AOD   \\
31	>	/SingleElectron/Run2012C-PromptReco-v2/AOD   \\
32	>	/SingleMu/Run2012C-PromptReco-v2/AOD   \\
33	>	\hline
34	>	\hline
35	>	Dilepton Samples (only used for dilepton control region)\\
36	>	\hline
37	>	/DoubleElectron/Run2012A-13Jul2012-v1/AOD   \\
38	>	/DoubleMu/Run2012A-13Jul2012-v1/AOD   \\
39	>	/MuEG/Run2012A-13Jul2012-v1/AOD   \\
40	>	/DoubleElectron/Run2012B-13Jul2012-v1/AOD   \\
41	>	/DoubleMu/Run2012B-13Jul2012-v1/AOD   \\
42	>	/MuEG/Run2012B-13Jul2012-v1/AOD   \\
43	>	/DoubleElectron/Run2012C-PromptReco-v1/AOD   \\
44	>	/DoubleMu/Run2012C-PromptReco-v1/AOD   \\
45	>	/MuEG/Run2012C-PromptReco-v1/AOD   \\
46	>	/DoubleElectron/Run2012C-PromptReco-v2/AOD   \\
47	>	/DoubleMu/Run2012C-PromptReco-v2/AOD   \\
48	>	/MuEG/Run2012C-PromptReco-v2/AOD   \\
49	>	\hline
50	>	\end{tabular}
51	>	\caption{Summary of data datasets used.\label{tab:DatasetsData}}
52	>	\end{center}
53	>	\end{table}
54	>
55	>	\begin{table}[!ht]
56	>	\begin{center}
57	>	{\footnotesize
58	>	\begin{tabular}{l|l|c}
59	>	\hline
60	>	\multicolumn{3}{c}{With Pileup: Processed dataset name is} \\
61	>	\multicolumn{3}{c}{(53) Summer12\_DR53X-PU\_S10\_START53\_V7A-v*/AODSIM} \\
62	>	\multicolumn{3}{c}{(52) Summer12-START52\_V9\_FSIM-v*/AODSIM} \\
63	>	\hline
64	>	Description                     &   Primary Dataset Name   & cross-section [pb]\\
65	>	\hline
66	>	$\ttbar$                                                         &   /TT\_CT10\_TuneZ2Star\_8TeV-powheg-tauola (53)                            & 225.2 \\
67	>	W $\rightarrow$ $\ell\nu$                &   /WJetsToLNu\_TuneZ2Star\_8TeV-madgraph-tauola (53)                        &  37509 \\
68	>	W $\rightarrow$ $\ell\nu$+3 jets                 &   /W3JetsToLNu\_TuneZ2Star\_8TeV-madgraph-tauola (53)                        &  640 \\
69	>	W $\rightarrow$ $\ell\nu$+$\geq 4$ jets        &   /W4JetsToLNu\_TuneZ2Star\_8TeV-madgraph-tauola (53)                        &  264 \\
70	>	WW      & /WWJetsTo2L2Nu\_TuneZ2star\_8TeV-madgraph-tauola (53) &   5.8\\
71	>	WZ      & /WZJetsTo3LNu\_TuneZ2\_8TeV-madgraph-tauola (53)              &   1.1\\
72	>	& /WZJetsTo2L2Q\_TuneZ2star\_8TeV-madgraph-tauola (53           &   1.1\\
73	>	ZZ      & /ZZJetsTo2L2Nu\_TuneZ2star\_8TeV-madgraph-tauola (53)         &   0.4\\
74	>	& /ZZJetsTo4L\_TuneZ2star\_8TeV-madgraph-tauola (53)            &   0.2\\
75	>	& /ZZJetsTo2L2Q\_TuneZ2star\_8TeV-madgraph-tauola (53           &   2.4\\
76	>	$t$ ($s$-chan)                           &   /T\_TuneZ2Star\_s-channel\_8TeV-powheg-tauola (53)                        &  3.9 \\
77	>	$\bar{t}$ ($s$-chan)                     &   /Tbar\_TuneZ2Star\_s-channel\_8TeV-powheg-tauola (53)                      &  1.8 \\
78	>	$t$ ($t$-chan)                           &   /T\_TuneZ2Star\_t-channel\_8TeV-powheg-tauola (53)                         &  55.5 \\
79	>	$\bar{t}$ ($t$-chan)                     &   /Tbar\_TuneZ2Star\_t-channel\_8TeV-powheg-tauola (53)                      &  30.0 \\
80	>	$tW$                                     &   /T\_TuneZ2Star\_tW-channel-DR\_8TeV-powheg-tauola (53)                     &  11.2 \\
81	>	$\bar{t} W$                               &   /Tbar\_TuneZ2Star\_tW-channel-DR\_8TeV-powheg-tauola (53)                  &  11.2 \\
82	>	$\dy \To \ell \ell$      & /DYJetsToLL\_TuneZ2Star\_M-50\_8TeV-madgraph-tarball (53)                   &  3532.8 \\
83	>	$\dy \To \ell \ell$+$\geq 4$ jets       & /DY4JetsToLL\_TuneZ2Star\_M-50\_8TeV-madgraph-tarball (53)                   &  27.6 \\
84	>	$\ttbar W$                                       &   /TTW\_TuneZ2Star\_8TeV-madgraph (53)                   &  0.23 \\
85	>	$\ttbar Z$                                       &   /TTZ\_TuneZ2Star\_8TeV-madgraph (53)                   &  0.21 \\
86	>	$\ttbar \gamma$                      &   /TTGJets\_TuneZ2Star\_8TeV-madgraph (53)            &  0.65 \\
87	>	WWW     & /WWW\_TuneZ2Star\_8TeV-madgraph (53)                  & 0.082 \\
88	>	WWZ     & /WWZNoGstar\_TuneZ2Star\_8TeV-madgraph (53)           & 0.063 \\
89	>	WZZ             & /WZZNoGstar\_TuneZ2Star\_8TeV-madgraph (53)   & 0.019 \\
90	>	ZZZ             & /ZZZNoGstar\_TuneZ2Star\_8TeV-madgraph (53)   & 0.019 \\
91	>	$\tilde{t}\bar{\tilde{t}}\rightarrow t\bar{t}\chi^0_1\chi^0_1$ & /SMS-T2tt\_FineBin\_Mstop-225to1200\_mLSP-0to1000\_8TeV-Pythia6Z (52)            &  scan\\
92	>	$\tilde{t}\bar{\tilde{t}}\rightarrow b\bar{b}\chi^+_1\chi^-_1$ & /SMS-T2bw\_FineBin\_Mstop-100to600\_mLSP-0to500\_8TeV-Pythia6Z (52)            &  scan \\
93	>	\hline
94	>	\hline
95	>	$\ttbar$                                 &   /TTJets\_MassiveBinDECAY\_TuneZ2Star\_8TeV-madgraph-tauola (53)                            & 225.2 \\
96	>	$\ttbar$ ($Q^2 \times 2$)                                &   /TTjets\_TuneZ2Star\_scaleup\_8TeV-madgraph-tauola (53)                            & 225.2 \\
97	>	$\ttbar$ ($Q^2 \times 0.5$)                             &   /TTjets\_TuneZ2Star\_scaledown\_8TeV-madgraph-tauola (53)                            & 225.2 \\
98	>	$\ttbar$ ($x_q>40~\GeV$)                               &   /TTjets\_TuneZ2Star\_matchingup\_8TeV-madgraph-tauola (53)                             & 225.2 \\
99	>	$\ttbar$ ($x_q>10~\GeV$)                               &   /TTjets\_TuneZ2Star\_matchingdown\_8TeV-madgraph-tauola (53)                             & 225.2 \\
100	>	$\ttbar$ ($m_{\mathrm{top}} = 178.5~\GeV$)       &   /TTJets\_TuneZ2Star\_mass178\_5\_8TeV-madgraph-tauola (53)                             & 225.2 \\
101	>	$\ttbar$ ($m_{\mathrm{top}} = 166.5~\GeV$)       &   /TTJets\_TuneZ2Star\_mass166\_5\_8TeV-madgraph-tauola (53)                             & 225.2 \\
102	>	%$\ttbar \To \ell \ell \nu \nu$                          &   /TTTo2L2Nu2B\_8TeV-powheg-pythia6 (S3)                              &  16.5 \\
103	>	%$\ttbar$                                                        &   /TT\_TuneZ2Star\_8TeV-mcatnlo (S3)                            & 157.5 \\
104	>	%$\ttbar$                                                        &   /TT\_TuneZ2Star\_8TeV-pythia6-tauola (S3)                      & 157.5 \\
105	>	\hline
106	>	\end{tabular}
107	>	}
108	>	\caption{Summary of Monte Carlo datasets used. %CHECK TRIBOSON XSEC
109	>	%HOOBERMAN: updated VVV cross sections. Clearly there is a bug somewhere because the xsec in cms2 ntuples is the same for WZZ and ZZZ...
110	>	\label{tab:DatasetsMC}}
111	>	\end{center}
112	>	\end{table}
113	>
114	>	\begin{table}[!ht]
115	>	\begin{center}
116	>	\begin{tabular}{l}
117	>	\hline
118	>	\hline
119	>	Triggers   \\
120	>	\hline
121	>	\hline
122	>	Single Muon Sample\\
123	>	\hline
124	>	\footnotesize{\verb=HLT_IsoMu24_v*=}\\
125	>	\footnotesize{\verb=HLT_IsoMu24_eta2p1_v*=}\\
126	>	\hline
127	>	Single Electron Sample\\
128	>	\hline
129	>	\footnotesize{\verb=HLT_Ele27_WP80_v*=}\\
130	>	\hline
131	>	Dilepton Sample (only used for dilepton control regions)\\
132	>	\hline
133	>	\footnotesize{\verb=HLT_Mu17_Mu8_v*=}\\
134	>	\footnotesize{\verb=HLT_Mu17_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v*=}\\
135	>	\footnotesize{\verb=HLT_Mu8_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL*=}\\
136	>	\footnotesize{\verb=HLT_Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL_v*=}\\
137	>	\hline
138	>	\end{tabular}
139	>	\caption{Summary of triggers used.
140	>	\label{tab:TrigData}}
141	>	\end{center}
142	>	\end{table}
143
5	–	%\subsection{Datasets}
144
7	–	We use the same datasets, triggers, and MC samples as in SUS-11-021. Details can be found in AN-2011/464.
8	–	We use a combination of rereco and prompt reco for both signal and control data samples. % leptons and photons.
9	–	This data covers the entire Run2011A and Run2011B data taking periods,
10	–	and the integrated luminosity corresponds to \lumi.
11	–	We select signal events passing one of a set of ee, e$\mu$ or $\mu\mu$ dilepton triggers.
12	–	A control sample of \gjets\ events is selected using a set of single photon triggers with varying
13	–	photon \pt\ thresholds.
14	–	Summer11 monte carlo samples are used.
15	–
16	–	\begin{comment}
17	–	\\
18	–	For selecting the dilepton sample, the following datasets are used (the pythia DY samples are used only for generator level Z mass values less than 50 to avoid overlap with the madgraph DYJets sample), including the benchmark SUSY points LM4 and LM8:
19	–
20	–
21	–	\begin{itemize}
22	–	\item Data
23	–	\begin{itemize}
24	–	\item \verb=/DoubleElectron/Run2011A-May10ReReco-v1/AOD=
25	–	\item \verb=/DoubleMu/Run2011A-May10ReReco-v1/AOD=
26	–	\item \verb=/MuEG/Run2011A-May10ReReco-v1/AOD=
27	–
28	–	\item \verb=/DoubleElectron/Run2011A-PromptReco-v4/AOD=
29	–	\item \verb=/DoubleMu/Run2011A-PromptReco-v4/AOD=
30	–	\item \verb=/MuEG/Run2011A-PromptReco-v4/AOD=
31	–	\end{itemize}
32	–
33	–	\item Monte Carlo
34	–	\begin{itemize}
35	–	\item \verb=/DYJetsToLL_TuneD6T_M-50_7TeV-madgraph-tauola/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
36	–	\item \verb=/TTJets_TuneZ2_7TeV-madgraph-tauola/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
37	–	\item \verb=/WJetsToLNu_TuneZ2_7TeV-madgraph-tauola/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
38	–	\item \verb=/WWTo2L2Nu_TuneZ2_7TeV-pythia6/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
39	–	\item \verb=/WZtoAnything_TuneZ2_7TeV-pythia6-tauola/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
40	–	\item \verb=/ZZtoAnything_TuneZ2_7TeV-pythia6-tauola/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
41	–	\item \verb=/TToBLNu_TuneZ2_s-channel_7TeV-madgraph/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
42	–	\item \verb=/TToBLNu_TuneZ2_t-channel_7TeV-madgraph/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
43	–	\item \verb=/TToBLNu_TuneZ2_tW-channel_7TeV-madgraph/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
44	–	\item Pythia samples:
45	–	\item \verb=/DYToEE_M-20_CT10_TuneZ2_7TeV-powheg-pythia/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
46	–	\item \verb=/DYToMuMu_M-20_CT10_TuneZ2_7TeV-powheg-pythia/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
47	–	\item \verb=/DYToTauTau_M-20_CT10_TuneZ2_7TeV-powheg-pythia-tauola/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
48	–	\item \verb=/DYToEE_M-10To20_TuneZ2_7TeV-pythia6/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
49	–	\item \verb=/DYToMuMu_M-10To20_TuneZ2_7TeV-pythia6/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
50	–	\item LM samples:
51	–	\item \verb=/LM4_SUSY_sftsht_7TeV-pythia6/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
52	–	\item \verb=/LM8_SUSY_sftsht_7TeV-pythia6/Spring11-PU_S1_START311_V1G1-v1/AODSIM=
53	–	\end{itemize}
54	–	\end{itemize}
55	–
56	–	For the creation of photon templates, we use:
57	–
58	–	\begin{itemize}
59	–	\item \verb=/Photon/Run2011A-May10ReReco-v1/AOD=
60	–	\item \verb=/Photon/Run2011A-PromptReco-v4/AOD=
61	–	%\item \verb==
62	–	\end{itemize}
145
64	–	\end{comment}

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