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# Line 4 | Line 4
4   \label{sec:yields}
5  
6   In this section we compare the data and MC samples passing the selection described in Sec.~\ref{sec:eventSelection}
7 < In the following, the MC is reweighted to match the data distribution of number of reconstructed primary vertices
8 < {\bf FIXME: UPDATE TO 5.1/fb VTX-REWEIGHTING, CURRENTLY USING OUTDATED FUNCTION}.
7 > In the following, the MC is reweighted to match the data distribution of number of reconstructed primary vertices.
8 > %{\bf FIXME: UPDATE TO 5.1/fb VTX-REWEIGHTING, CURRENTLY USING OUTDATED FUNCTION}.
9   The trigger efficiencies of Sec.~\ref{sec:datasets} are applied. In all plots, the last bin contains the overflow.
10  
11   We begin by counting the inclusive Z yields. Here we require the presence of two selected leptons without
# Line 16 | Line 16 | of integrated luminosity (4.5\%), trigge
16  
17   \begin{figure}[hbt]
18    \begin{center}
19 <        \includegraphics[width=1.0\linewidth]{plots/dilmass_ee_mm.pdf}
19 >        \includegraphics[width=1.0\linewidth]{plots/dilmass_19p5fb.pdf}
20          \caption{
21            \label{fig:dilmass}\protect
22            Dilepton mass distribution for events with two selected leptons
23            in the ee (left) and $\mu\mu$ (right) final states.}
24 +
25 + %Loading babies at       : ../output/V00-02-02
26 + %Using selection         : (((((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0)))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0)
27 + %Using weight            : weight * 19.5 * trgeff * vtxweight
28 + %Plotting var dilmass flavor ee
29 + %compareDataMC : apply trigeff 1
30 + %MC yield VVV 55.85
31 + %MC yield ttV 110.19
32 + %MC yield WW 3487.10
33 + %MC yield single top 1798.02
34 + %MC yield ttbar 18957.21
35 + %MC yield ZZ 5338.77
36 + %MC yield WZ 5014.99
37 + %MC yield zjets 5404260.14
38 + %MC total yield 5439022.50
39 + %data yield 5.60831e+06
40 + %Plotting var dilmass flavor mm
41 + %compareDataMC : apply trigeff 1
42 + %Warning in <TROOT::Append>: Replacing existing TH1: htemp (Potential memory leak).
43 + %MC yield VVV 69.64
44 + %MC yield ttV 136.01
45 + %MC yield WW 4610.46
46 + %MC yield single top 2321.96
47 + %MC yield ttbar 23578.38
48 + %MC yield ZZ 6981.84
49 + %MC yield WZ 6484.48
50 + %MC yield zjets 7406868.73
51 + %MC total yield 7451051.50
52 + %data yield 7.44536e+06
53 +
54    \end{center}
55   \end{figure}
56  
57  
58   \begin{table}[htb]
59   \begin{center}
60 < \caption{\label{table:zyields} Data and Monte Carlo yields for events with two selected leptons in the Z mass window.
31 < }
60 > \caption{\label{table:zyields} Data and Monte Carlo yields for events with two selected leptons in the Z mass window. }
61   \begin{tabular}{lccccc}
62 +
63 +
64 + %Loading babies at       : ../output/V00-02-02
65 + %Using selection         : ((((((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0)))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(dilmass>81 && dilmass<101)
66 + %Using weight            : weight * 19.5 * trgeff * vtxweight
67 +
68 + \hline
69   \hline
70 +         Sample   &             ee   &       $\mu\mu$   &         e$\mu$   &          total  \\
71   \hline
72 <              Sample   &                ee   &            $\mu\mu$   &              e$\mu$   &         total         \\
72 >         \zjets   &4784691.5 $\pm$ 3465.8   &6575638.5 $\pm$ 3907.6   &2294.1 $\pm$ 74.6   &11362624.1 $\pm$ 5223.7  \\
73 >         \ttbar   &3355.3 $\pm$ 46.1   &4222.2 $\pm$ 49.8   &7624.2 $\pm$ 68.4   &15201.7 $\pm$ 96.3  \\
74 >             WZ   &4342.7 $\pm$ 7.3   &5671.8 $\pm$ 8.0   &114.0 $\pm$ 1.1   &10128.5 $\pm$ 10.9  \\
75 >             ZZ   &4715.2 $\pm$ 9.9   &6192.8 $\pm$ 11.0   & 20.8 $\pm$ 0.3   &10928.8 $\pm$ 14.8  \\
76 >             WW   &614.8 $\pm$ 6.0   &816.3 $\pm$ 6.6   &1417.8 $\pm$ 8.9   &2848.9 $\pm$ 12.7  \\
77 >     single top   &315.3 $\pm$ 11.9   &406.4 $\pm$ 13.0   &701.8 $\pm$ 17.4   &1423.5 $\pm$ 24.8  \\
78 >           \ttV   & 57.4 $\pm$ 1.1   & 70.5 $\pm$ 1.1   & 21.5 $\pm$ 0.7   &149.5 $\pm$ 1.7  \\
79 >            VVV   & 38.9 $\pm$ 0.4   & 49.1 $\pm$ 0.4   &  6.9 $\pm$ 0.2   & 94.9 $\pm$ 0.6  \\
80   \hline
81 <         \zjets   & 1150211.5 $\pm$ 4886.0   & 1697568.1 $\pm$ 5680.2  &  281.5 $\pm$ 63.7   & 2848061.2 $\pm$ 7492.8  \\
38 <         \ttbar   &     829.1 $\pm$ 20.0     &    1120.7 $\pm$ 22.6    & 1910.9 $\pm$ 29.7   &    3860.7 $\pm$ 42.4    \\
39 <             WZ   &    1038.2 $\pm$ 3.6      &    1465.5 $\pm$ 4.1     &   29.5 $\pm$ 0.5    &    2533.2 $\pm$ 5.5     \\
40 <             ZZ   &     658.0 $\pm$ 2.4      &     933.0 $\pm$ 2.7     &    2.7 $\pm$ 0.1    &    1593.7 $\pm$ 3.6     \\
41 <             WW   &     146.7 $\pm$ 2.6      &     209.0 $\pm$ 2.9     &  358.9 $\pm$ 3.9    &     714.6 $\pm$ 5.5     \\
42 <     single top   &      70.9 $\pm$ 4.9      &     103.3 $\pm$ 5.7     &  172.5 $\pm$ 7.4    &     346.7 $\pm$ 10.5    \\
81 >    total SM MC   &4798131.5 $\pm$ 3466.2   &6593068.0 $\pm$ 3908.0   &12201.2 $\pm$ 103.0   &11403400.7 $\pm$ 5224.7  \\
82   \hline
83 <    total SM MC   & 1152954.5 $\pm$ 4886.1   & 1701399.6 $\pm$ 5680.3   &2756.1 $\pm$ 70.8   & 2857110.2 $\pm$ 7493.0  \\
45 <           data   &        1162229   &        1774353   &           3077   &        2939659  \\
83 >           data   &        4906900   &        6552528   &          13141   &       11472569  \\
84   \hline
85   \hline
86 +
87   \end{tabular}
88   \end{center}
89   \end{table}
# Line 59 | Line 98 | We next define the preselection region f
98   \end{itemize}
99  
100   The dilepton mass distributions in the preselection region of the inclusive search (without the dilepton mass requirement applied)
101 < for the ee and $\mu\mu$ final states are shown in Figure~\ref{fig:dilmass_2j}. In Table~\ref{table:zyields_2j} the data and MC yields in the preselection
102 < region are indicated. Good data vs. MC agreement is observed.
101 > for the ee and $\mu\mu$ final states are shown in Figure~\ref{fig:dilmass_2j}. In Table~\ref{table:zyields_2j} the data and MC yields
102 > in the inclusive preselection region are indicated. Good data vs. MC agreement is observed.
103  
104  
105   \begin{figure}[hbt]
106    \begin{center}
107 <        \includegraphics[width=1.0\linewidth]{plots/dilmass_ee_mm_2j.pdf}
107 >        \includegraphics[width=1.0\linewidth]{plots/dilmass_2jets_19p5fb.pdf}
108          \caption{
109            \label{fig:dilmass_2j}\protect
110            Dilepton mass distribution for events in the preselection region of the inclusive search
111            in the ee (left) and $\mu\mu$ (right) final states.}
112 +
113 + %Loading babies at       : ../output/V00-02-02
114 + %-------------------------------------
115 + %USING SKIMMED SAMPLES WITH NJETS >= 2
116 + %-------------------------------------
117 +
118 + %Using selection         : ((((((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0)))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(njets>=2)
119 + %Using weight            : weight * 19.5 * trgeff * vtxweight
120 + %Plotting var dilmass flavor ee
121 + %compareDataMC : apply trigeff 1
122 + %MC yield VVV 38.82
123 + %MC yield ttV 104.04
124 + %MC yield WW 426.72
125 + %MC yield single top 771.56
126 + %MC yield ttbar 14618.67
127 + %MC yield ZZ 2396.41
128 + %MC yield WZ 2080.63
129 + %MC yield zjets 268774.33
130 + %MC total yield 289211.19
131 + %data yield 291221
132 + %Plotting var dilmass flavor mm
133 + %compareDataMC : apply trigeff 1
134 + %Warning in <TROOT::Append>: Replacing existing TH1: htemp (Potential memory leak).
135 + %MC yield VVV 48.05
136 + %MC yield ttV 129.11
137 + %MC yield WW 549.24
138 + %MC yield single top 980.84
139 + %MC yield ttbar 18175.34
140 + %MC yield ZZ 3092.92
141 + %MC yield WZ 2652.19
142 + %MC yield zjets 358918.68
143 + %MC total yield 384546.38
144 + %data yield 368674
145 +
146    \end{center}
147   \end{figure}
148  
# Line 78 | Line 151 | region are indicated. Good data vs. MC a
151   \caption{\label{table:zyields_2j} Data and MC yields in the preselection region of the inclusive search.
152   }
153   \begin{tabular}{lccccc}
154 +
155 + %Loading babies at       : ../output/V00-02-02
156 + %-------------------------------------
157 + %USING SKIMMED SAMPLES WITH NJETS >= 2
158 + %-------------------------------------
159 +
160 + %Using selection         : (((((((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0)))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(njets>=2))&&(dilmass>81 && dilmass<101)
161 + %Using weight            : weight * 19.5 * trgeff * vtxweight
162 +
163   \hline
164   \hline
165 <         Sample   &           ee   &       $\mu\mu$   &         e$\mu$   &            total  \\
165 >         Sample   &             ee   &       $\mu\mu$   &         e$\mu$   &          total  \\
166   \hline
167 <          \zjets   & 53187.8 $\pm$ 988.5   &78070.5 $\pm$ 1165.7   &  5.6 $\pm$ 3.6   &131264.0 $\pm$ 1528.4  \\
168 <          \ttbar   &   645.3 $\pm$ 17.7   &865.1 $\pm$ 19.7   &1470.4 $\pm$ 25.8   &2980.8 $\pm$ 37.0  \\
169 <             WZ   &   431.2 $\pm$ 2.4   &594.6 $\pm$ 2.7   &  5.8 $\pm$ 0.2   &1031.6 $\pm$ 3.6  \\
170 <             ZZ   &   269.9 $\pm$ 1.6   &377.7 $\pm$ 1.8   &  0.5 $\pm$ 0.0   &648.1 $\pm$ 2.4  \\
171 <             WW   &    15.2 $\pm$ 0.8   & 22.2 $\pm$ 0.9   & 38.9 $\pm$ 1.3   & 76.4 $\pm$ 1.7  \\
172 <     single top   &    28.8 $\pm$ 3.2   & 38.0 $\pm$ 3.4   & 72.0 $\pm$ 4.9   &138.8 $\pm$ 6.7  \\
167 >         \zjets   &237881.9 $\pm$ 762.8   &317954.1 $\pm$ 848.2   &121.7 $\pm$ 17.1   &555957.7 $\pm$ 1140.9  \\
168 >          ttbar   &2597.5 $\pm$ 40.5   &3268.0 $\pm$ 43.8   &5926.8 $\pm$ 60.2   &11792.4 $\pm$ 84.7  \\
169 >             WZ   &1814.8 $\pm$ 4.8   &2329.0 $\pm$ 5.3   & 22.8 $\pm$ 0.5   &4166.6 $\pm$ 7.1  \\
170 >             ZZ   &2123.3 $\pm$ 7.0   &2750.6 $\pm$ 7.7   &  4.8 $\pm$ 0.2   &4878.8 $\pm$ 10.4  \\
171 >             WW   & 69.6 $\pm$ 2.0   & 90.3 $\pm$ 2.2   &161.1 $\pm$ 3.0   &321.0 $\pm$ 4.2  \\
172 >     single top   &128.6 $\pm$ 7.6   &155.3 $\pm$ 8.0   &280.1 $\pm$ 11.0   &564.0 $\pm$ 15.6  \\
173 >           \ttV   & 55.2 $\pm$ 1.0   & 68.0 $\pm$ 1.1   & 20.0 $\pm$ 0.6   &143.2 $\pm$ 1.6  \\
174 >            VVV   & 28.7 $\pm$ 0.3   & 36.1 $\pm$ 0.3   &  3.5 $\pm$ 0.1   & 68.3 $\pm$ 0.5  \\
175   \hline
176 <    total SM MC   & 54578.1 $\pm$ 988.7   &79968.3 $\pm$ 1165.9   &1593.3 $\pm$ 26.5   &136139.7 $\pm$ 1528.9  \\
93 <           data   &          54426   &          80367   &           1565   &         136358  \\
94 <
176 >    total SM MC   &244699.8 $\pm$ 764.0   &326651.4 $\pm$ 849.5   &6540.8 $\pm$ 63.6   &577892.0 $\pm$ 1144.2  \\
177   \hline
178 +           data   &         243387   &         310368   &           6416   &         560171  \\
179   \hline
180 + \hline
181 +
182 +
183 +
184   \end{tabular}
185   \end{center}
186   \end{table}
# Line 105 | Line 192 | We next define the preselection region f
192   \begin{itemize}
193   \item Veto events containing a b-tagged jet;
194   \item Dijet invariant mass $70<m_{jj}<110$ GeV;
195 < \item Veto events containing a third selected lepton (electron or muon) with \pt $>$ 20 GeV {\bf FIXME: lower third lepton \pt threshold to 10 GeV}.
195 > \item Veto events containing a third selected lepton (electron or muon) with \pt $>$ 10 GeV;
196   \end{itemize}
197  
198   The rejection of events with a b-tagged jet strongly suppresses the \ttbar\ background, which is the dominant background in the inclusive search
# Line 117 | Line 204 | the trilepton final state.
204   The dilepton mass distributions in the preselection region of the targeted search (without the dilepton mass requirement applied)
205   for the ee and $\mu\mu$ final states are shown in Figure~\ref{fig:dilmass_2j_targeted}. In Table~\ref{table:zyields_2j_targeted}
206   the data and MC yields in the preselection region are indicated. Good data vs. MC agreement is observed.
207 + We also show the distribution of dijet mass in the targeted preselection (with the requirement on this quantity removed) in Fig.~\ref{fig:mjj},
208 + which demonstrates that the MC does a reasonable job of modeling this quantity.
209 +
210 + %-------------------------------------
211 + % veto b-jets with CSV MEDIUM
212 + %-------------------------------------
213  
214   \begin{figure}[hbt]
215    \begin{center}
216 <        \includegraphics[width=1.0\linewidth]{plots/dilmass_ee_mm_2j_targeted.pdf}
216 >        \includegraphics[width=1.0\linewidth]{plots/dilmass_targeted_19p5fb.pdf}
217          \caption{
218            \label{fig:dilmass_2j_targeted}\protect
219            Dilepton mass distribution for events in the preselection region of the targeted search
220            in the ee (left) and $\mu\mu$ (right) final states.}
221 +
222 + %Loading babies at       : ../output/V00-02-02
223 + %-------------------------------------
224 + %USING SKIMMED SAMPLES WITH NJETS >= 2
225 + %-------------------------------------
226 +
227 + %Using selection         : (((((((((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0)))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(njets>=2))&&(nbcsvm==0))&&(mjj>70.0 && mjj<110.0))&&(nlep==2)
228 + %Using weight            : weight * 19.5 * trgeff * vtxweight
229 + %Plotting var dilmass flavor ee
230 + %compareDataMC : apply trigeff 1
231 + %MC yield VVV 7.33
232 + %MC yield ttV 3.58
233 + %MC yield WW 85.67
234 + %MC yield single top 45.33
235 + %MC yield ttbar 543.24
236 + %MC yield ZZ 918.93
237 + %MC yield WZ 630.62
238 + %MC yield zjets 74954.58
239 + %MC total yield 77189.27
240 + %data yield 75429
241 + %Plotting var dilmass flavor mm
242 + %compareDataMC : apply trigeff 1
243 + %Warning in <TROOT::Append>: Replacing existing TH1: htemp (Potential memory leak).
244 + %MC yield VVV 9.03
245 + %MC yield ttV 3.68
246 + %MC yield WW 110.10
247 + %MC yield single top 60.55
248 + %MC yield ttbar 623.36
249 + %MC yield ZZ 1182.18
250 + %MC yield WZ 814.62
251 + %MC yield zjets 101116.68
252 + %MC total yield 103920.20
253 + %data yield 96236
254 +
255    \end{center}
256   \end{figure}
257  
258   \begin{table}[htb]
259   \begin{center}
260 < \caption{\label{table:zyields_2j_targeted} Data and MC yields in the preselection region of the inclusive search.
260 > \caption{\label{table:zyields_2j_targeted} Data and MC yields in the preselection region of the targeted search.
261   }
262   \begin{tabular}{lccccc}
263 +
264 + %Loading babies at       : ../output/V00-02-02
265 + %-------------------------------------
266 + %USING SKIMMED SAMPLES WITH NJETS >= 2
267 + %-------------------------------------
268 +
269 + %Using selection         : ((((((((((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0)))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(njets>=2))&&(nbcsvm==0))&&(mjj>70.0 && mjj<110.0))&&(nlep==2))&&(dilmass>81 && dilmass<101)
270 + %Using weight            : weight * 19.5 * trgeff * vtxweight
271 +
272   \hline
273   \hline
274 <         Sample   &           ee   &       $\mu\mu$   &         e$\mu$   &            total  \\
274 >         Sample   &             ee   &       $\mu\mu$   &         e$\mu$   &          total  \\
275 > \hline
276 >         \zjets   &66277.1 $\pm$ 401.2   &89182.1 $\pm$ 447.5   & 26.8 $\pm$ 8.1   &155486.1 $\pm$ 601.1  \\
277 >         \ttbar   &108.2 $\pm$ 8.3   &106.6 $\pm$ 7.8   &223.6 $\pm$ 11.7   &438.4 $\pm$ 16.3  \\
278 >             WZ   &553.1 $\pm$ 2.7   &718.0 $\pm$ 3.0   &  3.6 $\pm$ 0.2   &1274.7 $\pm$ 4.0  \\
279 >             ZZ   &816.3 $\pm$ 4.4   &1052.1 $\pm$ 4.8   &  0.9 $\pm$ 0.1   &1869.3 $\pm$ 6.6  \\
280 >             WW   & 14.6 $\pm$ 0.9   & 18.3 $\pm$ 1.0   & 34.4 $\pm$ 1.4   & 67.3 $\pm$ 1.9  \\
281 >     single top   &  9.5 $\pm$ 2.1   & 10.9 $\pm$ 2.1   & 18.6 $\pm$ 2.8   & 39.0 $\pm$ 4.1  \\
282 >           \ttV   &  1.6 $\pm$ 0.2   &  1.8 $\pm$ 0.2   &  0.8 $\pm$ 0.1   &  4.2 $\pm$ 0.3  \\
283 >            VVV   &  4.8 $\pm$ 0.1   &  6.1 $\pm$ 0.1   &  0.9 $\pm$ 0.1   & 11.8 $\pm$ 0.2  \\
284   \hline
285 <         \zjets   &14108.9 $\pm$ 486.3   &21927.1 $\pm$ 606.4   &  0.0 $\pm$ 0.0   &36036.0 $\pm$ 777.4  \\
141 <         \ttbar   & 21.0 $\pm$ 2.9   & 33.4 $\pm$ 3.9   & 53.7 $\pm$ 5.0   &108.0 $\pm$ 6.9  \\
142 <             WZ   &135.6 $\pm$ 1.4   &188.5 $\pm$ 1.6   &  1.0 $\pm$ 0.1   &325.1 $\pm$ 2.1  \\
143 <             ZZ   &106.0 $\pm$ 1.0   &148.8 $\pm$ 1.2   &  0.1 $\pm$ 0.0   &254.9 $\pm$ 1.5  \\
144 <             WW   &  3.4 $\pm$ 0.4   &  4.1 $\pm$ 0.4   &  7.8 $\pm$ 0.5   & 15.2 $\pm$ 0.7  \\
145 <     single top   &  2.0 $\pm$ 0.8   &  2.8 $\pm$ 1.1   &  5.5 $\pm$ 1.4   & 10.3 $\pm$ 1.9  \\
285 >    total SM MC   &67785.3 $\pm$ 401.3   &91095.8 $\pm$ 447.6   &309.7 $\pm$ 14.6   &159190.9 $\pm$ 601.3  \\
286   \hline
287 <    total SM MC   &14376.9 $\pm$ 486.3   &22304.7 $\pm$ 606.5   & 68.0 $\pm$ 5.2   &36749.6 $\pm$ 777.4  \\
148 <           data   &          14647   &          21840   &             74   &          36561  \\
287 >           data   &          65376   &          83864   &            312   &         149552  \\
288   \hline
289   \hline
290 +
291   \end{tabular}
292   \end{center}
293   \end{table}
294  
295  
156 \clearpage
157
158
159
160
161
162
163
164
165
296  
297   \begin{comment}
298  
299 < The data yields and the MC predictions are given in Table~\ref{preselyieldtable}.
300 < %Dilepton mass and MET distributions for \emu ~events are shown in appendix \ref{app:emu}.
299 > %-------------------------------------
300 > % veto b-jets with CSV LOOSE
301 > %-------------------------------------
302  
303 < As anticipated, the MC predicts that the preselection is dominated by Z+jets in the same-flavor
304 < case and by \ttbar\ in the opposite-flavor case.  
305 < %The data yield is in reasonable agreement with the predictions for the $ee$, $\mu\mu$ and $e\mu$ channels.
306 <
307 < \begin{comment}
303 > \begin{figure}[hbt]
304 >  \begin{center}
305 >        \includegraphics[width=1.0\linewidth]{plots/dilmass_targeted_19fb.pdf}
306 >        \caption{
307 >          \label{fig:dilmass_2j_targeted}\protect
308 >          Dilepton mass distribution for events in the preselection region of the targeted search
309 >          in the ee (left) and $\mu\mu$ (right) final states.}
310  
311 < We also show the %LO
312 < next-to-leading order (NLO)
313 < yields for the LM4 and LM8 processes, which are benchmark
314 < SUSY processes in which $Z$ bosons are produced via cascade decays of SUSY particles.
311 > %Loading babies at       : ../output/V00-01-04
312 > %-------------------------------------
313 > %USING SKIMMED SAMPLES WITH NJETS >= 2
314 > %-------------------------------------
315 >
316 > %Using selection         : ((((((((isdata==0 || (run<197556 || run>198913))&&(((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0))))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(njets>=2))&&(nbcsvl==0))&&(mjj>70.0 && mjj<110.0))&&(nlep==2)
317 > %Using weight            : weight * 9.2 * trgeff * vtxweight
318 > %Plotting var dilmass flavor ee
319 > %compareDataMC : apply trigeff 1
320 > %MC yield VVV 1.69
321 > %MC yield ttV 0.71
322 > %MC yield WW 29.99
323 > %MC yield single top 10.71
324 > %MC yield ttbar 98.96
325 > %MC yield ZZ 160.28
326 > %MC yield WZ 201.63
327 > %SCALING ZJETS BY 111/946
328 > %MC yield zjets 26365.25
329 > %MC total yield 26869.22
330 > %data yield 24722
331 > %Plotting var dilmass flavor mm
332 > %compareDataMC : apply trigeff 1
333 > %Warning in <TROOT::Append>: Replacing existing TH1: htemp (Potential memory leak).
334 > %MC yield VVV 2.05
335 > %MC yield ttV 0.70
336 > %MC yield WW 38.74
337 > %MC yield single top 13.48
338 > %MC yield ttbar 104.95
339 > %MC yield ZZ 206.22
340 > %MC yield WZ 262.27
341 > %SCALING ZJETS BY 111/946
342 > %MC yield zjets 35489.85
343 > %MC total yield 36118.25
344 > %data yield 32393
345  
346 +  \end{center}
347 + \end{figure}
348  
349   \begin{table}[htb]
350   \begin{center}
351 < \caption{\label{preselyieldtable} Data and Monte Carlo yields for the preselection with \njets\ $\ge$ 2 for \lumi.
187 <  %The NLO yields for the SUSY benchmark processes LM4 and LM8 are also shown.
351 > \caption{\label{table:zyields_2j_targeted} Data and MC yields in the preselection region of the inclusive search.
352   }
353   \begin{tabular}{lccccc}
354   \hline
355 <              Sample   &                $ee$   &            $\mu\mu$   &              $e\mu$   &         tot  \\
355 > \hline
356 >         Sample   &           ee   &       $\mu\mu$   &         e$\mu$   &            total  \\
357   \hline
358  
359 <        WJets &   10.8 $\pm$    4.4  &     0.0 $\pm$    0.0  &     8.5 $\pm$    3.8  &    19.3 $\pm$    5.8 \\
360 <           WW &   14.8 $\pm$    0.5  &    17.2 $\pm$    0.5  &    32.9 $\pm$    0.8  &    64.9 $\pm$    1.1 \\
361 <           WZ &  405.7 $\pm$    1.8  &   411.7 $\pm$    1.7  &     5.0 $\pm$    0.1  &   822.4 $\pm$    2.5 \\
362 <           ZZ &  313.3 $\pm$    1.2  &   349.1 $\pm$    1.2  &     0.8 $\pm$    0.0  &   663.2 $\pm$    1.6 \\
363 <   Single Top &   29.3 $\pm$    1.2  &    26.1 $\pm$    1.0  &    50.8 $\pm$    1.5  &   106.2 $\pm$    2.1 \\
364 <     \ttbar &  523.2 $\pm$    2.6  &   529.0 $\pm$    2.5  &  1056.7 $\pm$    3.6  &  2108.8 $\pm$    5.1 \\
365 <       Z+Jets & 51051.4 $\pm$  147.5  &  53149.1 $\pm$  143.0  &    16.2 $\pm$    2.6  &  104216.8 $\pm$  205.4 \\
359 > %Loading babies at       : ../output/V00-01-04
360 > %-------------------------------------
361 > %USING SKIMMED SAMPLES WITH NJETS >= 2
362 > %-------------------------------------
363 >
364 > %Using selection         : (((((((((isdata==0 || (run<197556 || run>198913))&&(((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0))))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(njets>=2))&&(nbcsvl==0))&&(mjj>70.0 && mjj<110.0))&&(nlep==2))&&(dilmass>81 && dilmass<101)
365 > %Using weight            : weight * 9.2 * trgeff * vtxweight
366 >
367 > \hline
368 >         Sample   &           $ee$   &       $\mu\mu$   &         $e\mu$   &            tot  \\
369 > \hline
370 > SCALING ZJETS BY 111/946
371 >          zjets   &23338.4 $\pm$ 164.1   &31251.5 $\pm$ 182.6   &  8.9 $\pm$ 3.1   &54598.8 $\pm$ 245.5  \\
372 >             WZ   &176.4 $\pm$ 1.1   &231.1 $\pm$ 1.2   &  1.1 $\pm$ 0.1   &408.7 $\pm$ 1.6  \\
373 >             ZZ   &142.3 $\pm$ 0.9   &183.2 $\pm$ 1.0   &  0.1 $\pm$ 0.0   &325.6 $\pm$ 1.4  \\
374 >          ttbar   & 20.6 $\pm$ 2.5   & 15.5 $\pm$ 2.1   & 38.1 $\pm$ 3.4   & 74.2 $\pm$ 4.7  \\
375 >     single top   &  2.3 $\pm$ 0.7   &  2.9 $\pm$ 0.7   &  4.5 $\pm$ 1.0   &  9.6 $\pm$ 1.4  \\
376 >             WW   &  5.0 $\pm$ 0.4   &  6.8 $\pm$ 0.4   & 12.3 $\pm$ 0.6   & 24.2 $\pm$ 0.8  \\
377 >            ttV   &  0.3 $\pm$ 0.1   &  0.3 $\pm$ 0.1   &  0.2 $\pm$ 0.0   &  0.8 $\pm$ 0.1  \\
378 >            VVV   &  0.9 $\pm$ 0.0   &  1.1 $\pm$ 0.0   &  0.3 $\pm$ 0.0   &  2.3 $\pm$ 0.1  \\
379   \hline
380 <     Total MC & 52348.5 $\pm$  147.6  &  54482.2 $\pm$  143.0  &  1171.0 $\pm$    6.1  &  108001.6 $\pm$  205.6 \\
380 >      tot SM MC   &23686.1 $\pm$ 164.1   &31692.4 $\pm$ 182.6   & 65.7 $\pm$ 4.7   &55444.2 $\pm$ 245.5  \\
381 > \hline
382 >           data   &          21529   &          28265   &             53   &          49847  \\
383   \hline
204         Data &  49214  &   52757  &    1256  &  103227 \\
384   \hline
206
385  
386   \end{tabular}
387   \end{center}
388   \end{table}
389  
390   \end{comment}
391 +
392 +
393 + \clearpage
394 +
395 + \begin{figure}[hbt]
396 +  \begin{center}
397 +        \includegraphics[width=1.0\linewidth]{plots/mjj_targeted_19fb.pdf}
398 +        \caption{
399 +          \label{fig:mjj}\protect
400 + Distributions of dijet mass for the targeted preselection in the ee (left), $\mu\mu$ (middle) and e$\mu$ (right) final state.
401 + }                  
402 +  \end{center}
403 + \end{figure}
404 +
405 +
406 +
407 + %Loading babies at       : ../output/V00-02-00
408 + %-------------------------------------
409 + %USING SKIMMED SAMPLES WITH NJETS >= 2
410 + %-------------------------------------
411 +
412 + %Using selection         : ((((((((isdata==0 || (run<197556 || run>198913))&&(((leptype==0 && (ee==1 || isdata==0))||(leptype==1 && (mm==1 || isdata==0)))||(leptype==2 && (em==1||me==1||isdata==0))))&&(csc==0 && hbhe==1 && hcallaser==1 && ecaltp==1 && trkfail==1 && eebadsc==1 && hbhenew==1))&&(lep1.pt()>20.0 && lep2.pt()>20.0))&&(dilmass>15.0))&&(njets>=2))&&(nbcsvm==0))&&(nlep==2))&&(dilmass>81 && dilmass<101)
413 + %Using weight            : weight * 19.3 * trgeff * vtxweight
414 + %Plotting var mjj flavor ee
415 + %compareDataMC : apply trigeff 1
416 + %MC yield VVV 12.21
417 + %MC yield ttV 7.75
418 + %MC yield WW 63.50
419 + %MC yield single top 33.64
420 + %MC yield ttbar 435.66
421 + %MC yield ZZ 859.71
422 + %MC yield WZ 1520.22
423 + %SCALING ZJETS BY 111/946
424 + %MC yield zjets 209451.48
425 + %MC total yield 212384.17
426 + %data yield 209905
427 + %Plotting var mjj flavor mm
428 + %compareDataMC : apply trigeff 1
429 + %Warning in <TROOT::Append>: Replacing existing TH1: htemp (Potential memory leak).
430 + %MC yield VVV 15.69
431 + %MC yield ttV 9.57
432 + %MC yield WW 81.36
433 + %MC yield single top 42.28
434 + %MC yield ttbar 539.62
435 + %MC yield ZZ 1113.63
436 + %MC yield WZ 1955.65
437 + %SCALING ZJETS BY 111/946
438 + %MC yield zjets 281080.79
439 + %MC total yield 284838.59
440 + %data yield 266373
441 + %Plotting var mjj flavor em
442 + %compareDataMC : apply trigeff 1
443 + %Warning in <TROOT::Append>: Replacing existing TH1: htemp (Potential memory leak).
444 + %MC yield VVV 2.59
445 + %MC yield ttV 3.22
446 + %MC yield WW 143.37
447 + %MC yield single top 77.11
448 + %MC yield ttbar 1087.65
449 + %MC yield ZZ 1.32
450 + %MC yield WZ 15.18
451 + %SCALING ZJETS BY 111/946
452 + %MC yield zjets 112.51
453 + %MC total yield 1442.95
454 + %data yield 1417
455 +

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