cmsnotes/StopSearch/CR2.tex


\subsection{Single Lepton Top MC Modelling Validation from CR2}
\label{sec:cr2}

IS THIS GOING TO BE DONE WITH A BVETO OR NOT.  IF SO, IS IT GOING TO
BE CSVL OR CSVM?  NEED TO DISCUSS THIS.

The \mt\ tail for single-lepton top events (\ttsl\ and single top) is dominated by jet resolution effects. The \W\ cannot be far off-shell because $\mW < \mtop$.
The modeling of the \mt\ tail from jet resolution effects is studied using \zjets\ data and MC samples. 
\Z\ events are selection by requiring 2 good leptons (satisfying ID and isolation requirements) and requiring the \mll\ to be in the range $81-101$ GeV. 
The negative lepton is treated as a neutrino and so is added to the MET: \met\ $\rightarrow$ \pt(\Lepm) + \met, 
and the \mt\ is recalculated with the positive lepton \mt(\Lepp, \met).
The resulting ``pseudo-\mt'' is dominated by jet resolution effects, since no off-shell 
\Z\ production enters the sample due to the \mll\ requirement.
This section describes how well the MC predicts the tail of ``pseudo-\mt''. 

The underlying distributions are shown in Fig.~\ref{fig:cr2met}
and~\ref{fig:cr2mtrest}.  The comparison of data and MC event counts 
is shown in Table~\ref{tab:cr2yields}.  From this table we extract
the data to MC scale factors $SFR^{e}_{top}$ and  $SFR^{\mu}_{top}$. 


\begin{table}[!h]
\begin{center}
{\footnotesize
\begin{tabular}{l||c|c||c|c|c|c|c}
\hline
Sample              & CR2PRESEL0 &CR2PRESEL1 & CR2A & CR2B & CR2C &
CR2D & CR2E\\
\hline
\hline
DY MC             & $27 \pm 2$ & $23 \pm 2$ & $14 \pm 2$ & $25 \pm 3$ & $11 \pm 2$ & $3 \pm 1$ & $1 \pm 1$ \\
Data - non-DY MC          & $47 \pm 8$ & $36 \pm 7$ & $28 \pm 6$ & $35 \pm 6$ & $19 \pm 5$ & $11 \pm 3$ & $1 \pm 1$ \\
\hline
Data/MC SF: ($SFR_{top}$)         & $1.75 \pm 0.31$ & $1.58 \pm 0.32$ & $2.00 \pm 0.47$ & $1.38 \pm 0.31$ & $1.78 \pm 0.56$ & $3.29 \pm 1.73$ & $0.98 \pm 1.20$ \\
\hline
\end{tabular}}
\caption{ Yields in \mt\ tail comparing the \zjets\ MC prediction (after
  applying SFs) to data after subtracting the non-\zjets\ components. 
  CR2PRESEL refers to a sample with $\met>50$ GeV and $\mt>150$ GeV.
  The uncertainties are statistical only.  NEED TO ADD THE SYMBOLS
  DEFINED IN THE TEXT FOR THESE SCALE FACTORS.  IS THIS GOING TO BE
  DONE SEPARATELY FOR MUONS AND ELECTRONS???
  MAYBE WANT TO REMOVE LAST ENTRIES WHERE STATS ARE VERY LOW
\label{tab:cr2zyields}}
\end{center}
\end{table}


\begin{table}[!h]
\begin{center}
{\footnotesize
\begin{tabular}{l||c|c||c|c|c|c|c}
\hline
Sample              & CR2PRESEL0 &CR2PRESEL1 & CR2A & CR2B & CR2C &
CR2D & CR2E\\
\hline
\hline
MC                & $36 \pm 2$ & $30 \pm 2$ & $18 \pm 1$ & $30 \pm 2$ & $13 \pm 1$ & $5 \pm 0$ & $2 \pm 0$ \\
Data              & $56$ & $43$ & $32$ & $40$ & $21$ & $12$ & $2$ \\
\hline
Data/MC SF: ($SFR_{top}$)         & $1.56 \pm 0.23$ & $1.44 \pm 0.24$ & $1.77 \pm 0.34$ & $1.32 \pm 0.22$ & $1.65 \pm 0.37$ & $2.65 \pm 0.79$ & $0.99 \pm 0.71$ \\
\hline
\end{tabular}}
\caption{ Yields in \mt\ tail comparing the MC prediction (after
  applying SFs) to data. CR2PRESEL refers to a sample with $\met>50$
  GeV and $\mt>150$ GeV.
  The uncertainties are statistical only.  NEED TO ADD THE SYMBOLS
  DEFINED IN THE TEXT FOR THESE SCALE FACTORS.  IS THIS GOING TO BE
  DONE SEPARATELY FOR MUONS AND ELECTRONS???
  MAYBE WANT TO REMOVE LAST ENTRIES WHERE STATS ARE VERY LOW
\label{tab:cr2yields}}
\end{center}
\end{table}


\begin{figure}[hbt]
  \begin{center}
%       \includegraphics[width=0.5\linewidth]{plots/CR2plots/met_scaled_nj4_emucomb.pdf}%
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/met_lepcor_scaled_nj4_emucomb.pdf}%
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_nj4_emucomb.pdf}
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met50_nj4_emucomb.pdf}%
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met100_nj4_emucomb.pdf}

    \caption{
      Comparison of the pseudo\-\met\ (top, left), pseudo\-\mt\ (top,
      right and bottom) distributions in data vs. MC for events
      satisfying the requirements of CR2, combining both the muon and
      electron channels. The pseudo\-\mt\ distributions are shown
      before any additional requirements (top, right) and after
      requiring pseudo\-\met>50 GeV (bottom, left) and pseudo\-\met>100 GeV (bottom, right) .
\label{fig:cr2met} 
}  
      \end{center}
\end{figure}

\begin{figure}[hbt]
  \begin{center}
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met150_nj4_emucomb.pdf}%
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met200_nj4_emucomb.pdf}
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met250_nj4_emucomb.pdf}%
        \includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met300_nj4_emucomb.pdf}
    \caption{
      Comparison of the \mt\ distribution in data vs. MC for events
      satisfying the requirements of CR2, combining both the muon and
      electron channels. The pseudo-\met\ requirements used are
      150 GeV (top, left), 200 GeV (top, right), 250 GeV (bottom,
      left) and 300 GeV (bottom, right).
\label{fig:cr2mtrest} 
}  
      \end{center}
\end{figure}
\clearpage
Revision:	1.3
Committed:	Tue Oct 9 14:00:42 2012 UTC (12 years, 7 months ago) by vimartin
Content type:	application/x-tex
Branch:	MAIN
Changes since 1.2:	+31 -2 lines
Log Message:	updated peak region defn
#	User	Rev	Content
1	claudioc	1.1
2			\subsection{Single Lepton Top MC Modelling Validation from CR2}
3			\label{sec:cr2}
4
5			IS THIS GOING TO BE DONE WITH A BVETO OR NOT. IF SO, IS IT GOING TO
6			BE CSVL OR CSVM? NEED TO DISCUSS THIS.
7
8			The \mt\ tail for single-lepton top events (\ttsl\ and single top) is dominated by jet resolution effects. The \W\ cannot be far off-shell because $\mW < \mtop$.
9			The modeling of the \mt\ tail from jet resolution effects is studied using \zjets\ data and MC samples.
10			\Z\ events are selection by requiring 2 good leptons (satisfying ID and isolation requirements) and requiring the \mll\ to be in the range $81-101$ GeV.
11			The negative lepton is treated as a neutrino and so is added to the MET: \met\ $\rightarrow$ \pt(\Lepm) + \met,
12			and the \mt\ is recalculated with the positive lepton \mt(\Lepp, \met).
13			The resulting ``pseudo-\mt'' is dominated by jet resolution effects, since no off-shell
14			\Z\ production enters the sample due to the \mll\ requirement.
15			This section describes how well the MC predicts the tail of ``pseudo-\mt''.
16
17			The underlying distributions are shown in Fig.~\ref{fig:cr2met}
18			and~\ref{fig:cr2mtrest}. The comparison of data and MC event counts
19			is shown in Table~\ref{tab:cr2yields}. From this table we extract
20			the data to MC scale factors $SFR^{e}_{top}$ and $SFR^{\mu}_{top}$.
21
22
23			\begin{table}[!h]
24			\begin{center}
25	vimartin	1.2	{\footnotesize
26			\begin{tabular}{l\|\|c\|c\|\|c\|c\|c\|c\|c}
27	claudioc	1.1	\hline
28	vimartin	1.2	Sample & CR2PRESEL0 &CR2PRESEL1 & CR2A & CR2B & CR2C &
29			CR2D & CR2E\\
30	claudioc	1.1	\hline
31			\hline
32	vimartin	1.3	DY MC & $27 \pm 2$ & $23 \pm 2$ & $14 \pm 2$ & $25 \pm 3$ & $11 \pm 2$ & $3 \pm 1$ & $1 \pm 1$ \\
33	vimartin	1.2	Data - non-DY MC & $47 \pm 8$ & $36 \pm 7$ & $28 \pm 6$ & $35 \pm 6$ & $19 \pm 5$ & $11 \pm 3$ & $1 \pm 1$ \\
34	claudioc	1.1	\hline
35	vimartin	1.3	Data/MC SF: ($SFR_{top}$) & $1.75 \pm 0.31$ & $1.58 \pm 0.32$ & $2.00 \pm 0.47$ & $1.38 \pm 0.31$ & $1.78 \pm 0.56$ & $3.29 \pm 1.73$ & $0.98 \pm 1.20$ \\
36			\hline
37			\end{tabular}}
38			\caption{ Yields in \mt\ tail comparing the \zjets\ MC prediction (after
39			applying SFs) to data after subtracting the non-\zjets\ components.
40			CR2PRESEL refers to a sample with $\met>50$ GeV and $\mt>150$ GeV.
41			The uncertainties are statistical only. NEED TO ADD THE SYMBOLS
42			DEFINED IN THE TEXT FOR THESE SCALE FACTORS. IS THIS GOING TO BE
43			DONE SEPARATELY FOR MUONS AND ELECTRONS???
44			MAYBE WANT TO REMOVE LAST ENTRIES WHERE STATS ARE VERY LOW
45			\label{tab:cr2zyields}}
46			\end{center}
47			\end{table}
48
49
50			\begin{table}[!h]
51			\begin{center}
52			{\footnotesize
53			\begin{tabular}{l\|\|c\|c\|\|c\|c\|c\|c\|c}
54			\hline
55			Sample & CR2PRESEL0 &CR2PRESEL1 & CR2A & CR2B & CR2C &
56			CR2D & CR2E\\
57			\hline
58			\hline
59			MC & $36 \pm 2$ & $30 \pm 2$ & $18 \pm 1$ & $30 \pm 2$ & $13 \pm 1$ & $5 \pm 0$ & $2 \pm 0$ \\
60			Data & $56$ & $43$ & $32$ & $40$ & $21$ & $12$ & $2$ \\
61			\hline
62			Data/MC SF: ($SFR_{top}$) & $1.56 \pm 0.23$ & $1.44 \pm 0.24$ & $1.77 \pm 0.34$ & $1.32 \pm 0.22$ & $1.65 \pm 0.37$ & $2.65 \pm 0.79$ & $0.99 \pm 0.71$ \\
63	claudioc	1.1	\hline
64	vimartin	1.2	\end{tabular}}
65	claudioc	1.1	\caption{ Yields in \mt\ tail comparing the MC prediction (after
66			applying SFs) to data. CR2PRESEL refers to a sample with $\met>50$
67			GeV and $\mt>150$ GeV.
68			The uncertainties are statistical only. NEED TO ADD THE SYMBOLS
69			DEFINED IN THE TEXT FOR THESE SCALE FACTORS. IS THIS GOING TO BE
70			DONE SEPARATELY FOR MUONS AND ELECTRONS???
71	vimartin	1.2	MAYBE WANT TO REMOVE LAST ENTRIES WHERE STATS ARE VERY LOW
72	claudioc	1.1	\label{tab:cr2yields}}
73			\end{center}
74			\end{table}
75
76	vimartin	1.3
77
78	claudioc	1.1	\begin{figure}[hbt]
79			\begin{center}
80	vimartin	1.2	% \includegraphics[width=0.5\linewidth]{plots/CR2plots/met_scaled_nj4_emucomb.pdf}%
81			\includegraphics[width=0.5\linewidth]{plots/CR2plots/met_lepcor_scaled_nj4_emucomb.pdf}%
82			\includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_nj4_emucomb.pdf}
83			\includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met50_nj4_emucomb.pdf}%
84			\includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met100_nj4_emucomb.pdf}
85
86	claudioc	1.1	\caption{
87	vimartin	1.2	Comparison of the pseudo\-\met\ (top, left), pseudo\-\mt\ (top,
88			right and bottom) distributions in data vs. MC for events
89	claudioc	1.1	satisfying the requirements of CR2, combining both the muon and
90	vimartin	1.2	electron channels. The pseudo\-\mt\ distributions are shown
91			before any additional requirements (top, right) and after
92			requiring pseudo\-\met>50 GeV (bottom, left) and pseudo\-\met>100 GeV (bottom, right) .
93	claudioc	1.1	\label{fig:cr2met}
94			}
95			\end{center}
96			\end{figure}
97
98			\begin{figure}[hbt]
99			\begin{center}
100	vimartin	1.2	\includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met150_nj4_emucomb.pdf}%
101			\includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met200_nj4_emucomb.pdf}
102			\includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met250_nj4_emucomb.pdf}%
103			\includegraphics[width=0.5\linewidth]{plots/CR2plots/mt_lepcor_scaled_met300_nj4_emucomb.pdf}
104	claudioc	1.1	\caption{
105			Comparison of the \mt\ distribution in data vs. MC for events
106			satisfying the requirements of CR2, combining both the muon and
107			electron channels. The pseudo-\met\ requirements used are
108	vimartin	1.2	150 GeV (top, left), 200 GeV (top, right), 250 GeV (bottom,
109			left) and 300 GeV (bottom, right).
110	claudioc	1.1	\label{fig:cr2mtrest}
111			}
112			\end{center}
113			\end{figure}
114			\clearpage