Annotation of ttbar/p20_taujets_note/Appendix.tex, revision 1.1
1.1 ! uid12904 1: \appendix
! 2:
! 3: \section{\label{app:trig_eff}Trigger Efficiencies}
! 4: %\begin{subappendices}
! 5:
! 6: \noindent In this appendix we present the trigger weight distributions of all MC samples
! 7: for different numbers of b-tagged jets. These are the weight distributions we referred to
! 8: in Sections \ref{sub:datasample} and \ref{sec:trig_param}.
! 9:
! 10:
! 11: \subsection{\label{app:taujets_trig_eff}Trigger Efficiencies for $\tau + jets$}
! 12: \begin{figure}[h]
! 13: \includegraphics[scale=0.28]{trigger_eff/taujets0eff}
! 14: \includegraphics[scale=0.28]{trigger_eff/taujets1eff}
! 15: \includegraphics[scale=0.28]{trigger_eff/taujets2eff}
! 16: \includegraphics[scale=0.28]{trigger_eff/taujets3eff}
! 17: \caption{Trigger Efficiencies for $\tau + jets$.}
! 18:
! 19: %\label{fig:variables_type2_bveto}
! 20: \end{figure}
! 21:
! 22:
! 23: \subsection{\label{app:taujets_trig_eff}Trigger Efficiencies for $e + jets$}
! 24: \begin{figure}[h]
! 25: \includegraphics[scale=0.28]{trigger_eff/ejets0eff}
! 26: \includegraphics[scale=0.28]{trigger_eff/ejets1eff}
! 27: \includegraphics[scale=0.28]{trigger_eff/ejets2eff}
! 28: \includegraphics[scale=0.28]{trigger_eff/ejets3eff}
! 29: \caption{Trigger Efficiencies for $e + jets$.}
! 30:
! 31: %\label{fig:variables_type2_bveto}
! 32: \end{figure}
! 33:
! 34: \clearpage
! 35:
! 36: \subsection{\label{app:mujets_trig_eff}Trigger Efficiencies for $\mu + jets$}
! 37: \begin{figure}[h]
! 38: \includegraphics[scale=0.28]{trigger_eff/mujets0eff}
! 39: \includegraphics[scale=0.28]{trigger_eff/mujets1eff}
! 40: \includegraphics[scale=0.28]{trigger_eff/mujets2eff}
! 41: \includegraphics[scale=0.28]{trigger_eff/mujets3eff}
! 42: \caption{Trigger Efficiencies for $\mu + jets$.}
! 43:
! 44: %\label{fig:variables_type2_bveto}
! 45: \end{figure}
! 46:
! 47:
! 48: \subsection{\label{app:dilep_trig_eff}Trigger Efficiencies for $dilepton$}
! 49: \begin{figure}[h]
! 50: \includegraphics[scale=0.28]{trigger_eff/dilep0eff}
! 51: \includegraphics[scale=0.28]{trigger_eff/dilep1eff}
! 52: \includegraphics[scale=0.28]{trigger_eff/dilep2eff}
! 53: \includegraphics[scale=0.28]{trigger_eff/dilep3eff}
! 54: \caption{Trigger Efficiencies for $dilepton$.}
! 55:
! 56: %\label{fig:variables_type2_bveto}
! 57: \end{figure}
! 58:
! 59:
! 60: \clearpage
! 61:
! 62:
! 63: \subsection{\label{app:alljets_trig_eff}Trigger Efficiencies for $alljets$}
! 64: \begin{figure}[h]
! 65: \includegraphics[scale=0.28]{trigger_eff/alljets0eff}
! 66: \includegraphics[scale=0.28]{trigger_eff/alljets1eff}
! 67: \includegraphics[scale=0.28]{trigger_eff/alljets2eff}
! 68: \includegraphics[scale=0.28]{trigger_eff/alljets3eff}
! 69: \caption{Trigger Efficiencies for $alljets$.}
! 70:
! 71: %\label{fig:variables_type2_bveto}
! 72: \end{figure}
! 73:
! 74:
! 75: \subsection{\label{app:Wjjjets_trig_eff}Trigger Efficiencies for $Wjj + jets$}
! 76: \begin{figure}[h]
! 77: \includegraphics[scale=0.28]{trigger_eff/Wjjjets0eff}
! 78: \includegraphics[scale=0.28]{trigger_eff/Wjjjets1eff}
! 79: \includegraphics[scale=0.28]{trigger_eff/Wjjjets2eff}
! 80: \includegraphics[scale=0.28]{trigger_eff/Wjjjets3eff}
! 81: \caption{Trigger Efficiencies for $Wjj + jets$.}
! 82:
! 83: %\label{fig:variables_type2_bveto}
! 84: \end{figure}
! 85:
! 86: \clearpage
! 87:
! 88: \subsection{\label{app:Wbbjets_trig_eff}Trigger Efficiencies for $Wbb + jets$}
! 89: \begin{figure}[h]
! 90: \includegraphics[scale=0.28]{trigger_eff/Wbbjets0eff}
! 91: \includegraphics[scale=0.28]{trigger_eff/Wbbjets1eff}
! 92: \includegraphics[scale=0.28]{trigger_eff/Wbbjets2eff}
! 93: \includegraphics[scale=0.28]{trigger_eff/Wbbjets3eff}
! 94: \caption{Trigger Efficiencies for $Wbb + jets$.}
! 95:
! 96: %\label{fig:variables_type2_bveto}
! 97: \end{figure}
! 98:
! 99:
! 100: \subsection{\label{app:Wccjets_trig_eff}Trigger Efficiencies for $Wcc + jets$}
! 101: \begin{figure}[h]
! 102: \includegraphics[scale=0.28]{trigger_eff/Wccjets0eff}
! 103: \includegraphics[scale=0.28]{trigger_eff/Wccjets1eff}
! 104: \includegraphics[scale=0.28]{trigger_eff/Wccjets2eff}
! 105: \includegraphics[scale=0.28]{trigger_eff/Wccjets3eff}
! 106: \caption{Trigger Efficiencies for $Wcc + jets$.}
! 107:
! 108: %\label{fig:variables_type2_bveto}
! 109: \end{figure}
! 110:
! 111:
! 112: \clearpage
! 113:
! 114:
! 115: \subsection{\label{app:Zlpeejets_trig_eff}Trigger Efficiencies for $Zjj + jets \rightarrow ee + jj + jets$}
! 116: \begin{figure}[h]
! 117: \includegraphics[scale=0.28]{trigger_eff/Zlpee0eff}
! 118: \includegraphics[scale=0.28]{trigger_eff/Zlpee1eff}
! 119: \includegraphics[scale=0.28]{trigger_eff/Zlpee2eff}
! 120: \includegraphics[scale=0.28]{trigger_eff/Zlpee3eff}
! 121: \caption{Trigger Efficiencies for $Zjj + jets \rightarrow ee + jj + jets$.}
! 122:
! 123: %\label{fig:variables_type2_bveto}
! 124: \end{figure}
! 125:
! 126:
! 127:
! 128: \subsection{\label{app:Zbbeejets_trig_eff}Trigger Efficiencies for $Zbb + jets \rightarrow ee + bb + jets$}
! 129: \begin{figure}[h]
! 130: \includegraphics[scale=0.28]{trigger_eff/Zbbee0eff}
! 131: \includegraphics[scale=0.28]{trigger_eff/Zbbee1eff}
! 132: \includegraphics[scale=0.28]{trigger_eff/Zbbee2eff}
! 133: \includegraphics[scale=0.28]{trigger_eff/Zbbee3eff}
! 134: \caption{Trigger Efficiencies for $Zbb + jets \rightarrow ee + bb + jets$.}
! 135:
! 136: %\label{fig:variables_type2_bveto}
! 137: \end{figure}
! 138:
! 139: \clearpage
! 140:
! 141: \subsection{\label{app:Zcceejets_trig_eff}Trigger Efficiencies for $Zcc + jets \rightarrow ee + cc + jets$}
! 142: \begin{figure}[h]
! 143: \includegraphics[scale=0.28]{trigger_eff/Zccee0eff}
! 144: \includegraphics[scale=0.28]{trigger_eff/Zccee1eff}
! 145: \includegraphics[scale=0.28]{trigger_eff/Zccee2eff}
! 146: \includegraphics[scale=0.28]{trigger_eff/Zccee3eff}
! 147: \caption{Trigger Efficiencies for $Zcc + jets \rightarrow ee + cc + jets$.}
! 148:
! 149: %\label{fig:variables_type2_bveto}
! 150: \end{figure}
! 151:
! 152:
! 153: \subsection{\label{app:Zlpmumujets_trig_eff}Trigger Efficiencies for $Zjj + jets \rightarrow \mu\mu + jj + jets$}
! 154: \begin{figure}[h]
! 155: \includegraphics[scale=0.28]{trigger_eff/Zlpmumu0eff}
! 156: \includegraphics[scale=0.28]{trigger_eff/Zlpmumu1eff}
! 157: \includegraphics[scale=0.28]{trigger_eff/Zlpmumu2eff}
! 158: \includegraphics[scale=0.28]{trigger_eff/Zlpmumu3eff}
! 159: \caption{Trigger Efficiencies for $Zjj + jets \rightarrow \mu\mu + jj + jets$.}
! 160:
! 161: %\label{fig:variables_type2_bveto}
! 162: \end{figure}
! 163:
! 164:
! 165: \clearpage
! 166:
! 167:
! 168:
! 169: \subsection{\label{app:Zbbmumujets_trig_eff}Trigger Efficiencies for $Zbb + jets \rightarrow \mu\mu + bb + jets$}
! 170: \begin{figure}[h]
! 171: \includegraphics[scale=0.28]{trigger_eff/Zbbmumu0eff}
! 172: \includegraphics[scale=0.28]{trigger_eff/Zbbmumu1eff}
! 173: \includegraphics[scale=0.28]{trigger_eff/Zbbmumu2eff}
! 174: \includegraphics[scale=0.28]{trigger_eff/Zbbmumu3eff}
! 175: \caption{Trigger Efficiencies for $Zbb + jets \rightarrow \mu\mu + bb + jets$.}
! 176:
! 177: %\label{fig:variables_type2_bveto}
! 178: \end{figure}
! 179:
! 180:
! 181: \subsection{\label{app:Zccmumujets_trig_eff}Trigger Efficiencies for $Zcc + jets \rightarrow \mu\mu + cc + jets$}
! 182: \begin{figure}[h]
! 183: \includegraphics[scale=0.28]{trigger_eff/Zccmumu0eff}
! 184: \includegraphics[scale=0.28]{trigger_eff/Zccmumu1eff}
! 185: \includegraphics[scale=0.28]{trigger_eff/Zccmumu2eff}
! 186: \includegraphics[scale=0.28]{trigger_eff/Zccmumu3eff}
! 187: \caption{Trigger Efficiencies for $Zcc + jets \rightarrow \mu\mu + cc + jets$.}
! 188:
! 189: %\label{fig:variables_type2_bveto}
! 190: \end{figure}
! 191:
! 192: \clearpage
! 193:
! 194:
! 195: \subsection{\label{app:Zlptautaujets_trig_eff}Trigger Efficiencies for $Zjj + jets \rightarrow \tau\tau + jj + jets$}
! 196: \begin{figure}[h]
! 197: \includegraphics[scale=0.28]{trigger_eff/Zlptautau0eff}
! 198: \includegraphics[scale=0.28]{trigger_eff/Zlptautau1eff}
! 199: \includegraphics[scale=0.28]{trigger_eff/Zlptautau2eff}
! 200: \includegraphics[scale=0.28]{trigger_eff/Zlptautau3eff}
! 201: \caption{Trigger Efficiencies for $Zjj + jets \rightarrow \tau\tau + jj + jets$.}
! 202:
! 203: %\label{fig:variables_type2_bveto}
! 204: \end{figure}
! 205:
! 206:
! 207:
! 208: \subsection{\label{app:Zbbtautaujets_trig_eff}Trigger Efficiencies for $Zbb + jets \rightarrow \tau\tau + bb + jets$}
! 209: \begin{figure}[h]
! 210: \includegraphics[scale=0.28]{trigger_eff/Zbbtautau0eff}
! 211: \includegraphics[scale=0.28]{trigger_eff/Zbbtautau1eff}
! 212: \includegraphics[scale=0.28]{trigger_eff/Zbbtautau2eff}
! 213: \includegraphics[scale=0.28]{trigger_eff/Zbbtautau3eff}
! 214: \caption{Trigger Efficiencies for $Zbb + jets \rightarrow \tau\tau + bb + jets$.}
! 215:
! 216: %\label{fig:variables_type2_bveto}
! 217: \end{figure}
! 218:
! 219:
! 220: \clearpage
! 221:
! 222:
! 223: \subsection{\label{app:Zcctautaujets_trig_eff}Trigger Efficiencies for $Zcc + jets \rightarrow \tau\tau + cc + jets$}
! 224: \begin{figure}[h]
! 225: \includegraphics[scale=0.28]{trigger_eff/Zcctautau0eff}
! 226: \includegraphics[scale=0.28]{trigger_eff/Zcctautau1eff}
! 227: \includegraphics[scale=0.28]{trigger_eff/Zcctautau2eff}
! 228: \includegraphics[scale=0.28]{trigger_eff/Zcctautau3eff}
! 229: \caption{Trigger Efficiencies for $Zcc + jets \rightarrow \tau\tau + cc + jets$.}
! 230:
! 231: %\label{fig:variables_type2_bveto}
! 232: \end{figure}
! 233:
! 234:
! 235: \subsection{\label{app:Zlpnunuets_trig_eff}Trigger Efficiencies for $Zjj + jets \rightarrow \nu\nu + jj + jets$}
! 236: \begin{figure}[h]
! 237: \includegraphics[scale=0.28]{trigger_eff/Zlpnunu0eff}
! 238: \includegraphics[scale=0.28]{trigger_eff/Zlpnunu1eff}
! 239: \includegraphics[scale=0.28]{trigger_eff/Zlpnunu2eff}
! 240: \includegraphics[scale=0.28]{trigger_eff/Zlpnunu3eff}
! 241: \caption{Trigger Efficiencies for $Zjj + jets \rightarrow \nu\nu + jj + jets$.}
! 242:
! 243: %\label{fig:variables_type2_bveto}
! 244: \end{figure}
! 245:
! 246:
! 247: \clearpage
! 248:
! 249:
! 250: \subsection{\label{app:Zbbnunujets_trig_eff}Trigger Efficiencies for $Zbb + jets \rightarrow \nu\nu + bb + jets$}
! 251: \begin{figure}[h]
! 252: \includegraphics[scale=0.28]{trigger_eff/Zbbnunu0eff}
! 253: \includegraphics[scale=0.28]{trigger_eff/Zbbnunu1eff}
! 254: \includegraphics[scale=0.28]{trigger_eff/Zbbnunu2eff}
! 255: \includegraphics[scale=0.28]{trigger_eff/Zbbnunu3eff}
! 256: \caption{Trigger Efficiencies for $Zbb + jets \rightarrow \nu\nu + bb + jets$.}
! 257:
! 258: %\label{fig:variables_type2_bveto}
! 259: \end{figure}
! 260:
! 261:
! 262: \subsection{\label{app:Zccnunujets_trig_eff}Trigger Efficiencies for $Zcc + jets \rightarrow \nu\nu + cc + jets$}
! 263: \begin{figure}[h]
! 264: \includegraphics[scale=0.28]{trigger_eff/Zccnunu0eff}
! 265: \includegraphics[scale=0.28]{trigger_eff/Zccnunu1eff}
! 266: \includegraphics[scale=0.28]{trigger_eff/Zccnunu2eff}
! 267: \includegraphics[scale=0.28]{trigger_eff/Zccnunu3eff}
! 268: \caption{Trigger Efficiencies for $Zcc + jets \rightarrow \nu\nu + cc + jets$.}
! 269:
! 270: %\label{fig:variables_type2_bveto}
! 271: \end{figure}
! 272:
! 273:
! 274: %\clearpage
! 275:
! 276:
! 277:
! 278: \section{\label{app:turnon} Turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 279:
! 280: \noindent Here it is shown all turn-on curves for all three levels of the trigger JT2$\_$3JT15L$\_$IP$\_$VX
! 281: as described in Section \ref{sec:trig_param}.
! 282:
! 283:
! 284: \subsection{\label{app:jetturnon_L1} Level 1 jet turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 285:
! 286: \begin{figure}[h]
! 287: \centering
! 288: \subfigure[$p_{T} >$ 8~GeV]{\epsfig{file=lowLum/l1jetspt8.eps,width=4.7cm}}
! 289: \subfigure[$p_{T} >$ 15~GeV]{\epsfig{file=lowLum/l1jetspt15.eps,width=4.7cm}}
! 290: \subfigure[$p_{T} >$ 30~GeV]{\epsfig{file=lowLum/l1jetspt30.eps,width=4.7cm}}
! 291: \caption{Level 1 jet turn-on curves, low luminosity.}
! 292: \label{fig:l1jetslo}
! 293: \end{figure}
! 294:
! 295: \newpage
! 296:
! 297: \begin{figure}[h]
! 298: \centering
! 299: \subfigure[$p_{T} >$ 8~GeV]{\epsfig{file=medLum/l1jetspt8.eps,width=4.7cm}}
! 300: \subfigure[$p_{T} >$ 15~GeV]{\epsfig{file=medLum/l1jetspt15.eps,width=4.7cm}}
! 301: \subfigure[$p_{T} >$ 30~GeV]{\epsfig{file=medLum/l1jetspt30.eps,width=4.7cm}}
! 302: \caption{Level 1 jet turn-on curves, medium luminosity.}
! 303: \label{fig:l1jets}
! 304: \end{figure}
! 305:
! 306:
! 307: \begin{figure}[h]
! 308: \centering
! 309: \subfigure[$p_{T} >$ 8~GeV]{\epsfig{file=highLum/l1jetspt8.eps,width=4.7cm}}
! 310: \subfigure[$p_{T} >$ 15~GeV]{\epsfig{file=highLum/l1jetspt15.eps,width=4.7cm}}
! 311: \subfigure[$p_{T} >$ 30~GeV]{\epsfig{file=highLum/l1jetspt30.eps,width=4.7cm}}
! 312: \caption{Level 1 jet turn-on curves, high luminosity.}
! 313: \label{fig:l1jetshi}
! 314: \end{figure}
! 315:
! 316: \newpage
! 317:
! 318:
! 319: \subsection{\label{app:jetturnon_L2} Level 2 jet turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 320:
! 321: \begin{figure}[h]
! 322: \centering
! 323: \subfigure[Low luminosity $p_{T} >$ 8~GeV]{\epsfig{file=lowLum/l2jetspt8.eps,width=4.7cm}}
! 324: \subfigure[Medium luminosity $p_{T} >$ 8~GeV]{\epsfig{file=medLum/l2jetspt8.eps,width=4.7cm}}
! 325: \subfigure[high luminosity $p_{T} >$ 8~GeV]{\epsfig{file=highLum/l2jetspt8.eps,width=4.7cm}}
! 326: \caption{Level 2 $p_{T} >$ 8~GeV jets turn-on curves.}
! 327: \label{fig:l2jetsalllumi}
! 328: \end{figure}
! 329:
! 330:
! 331: \subsection{\label{app:htturnon_L2} Level 2 $H_{T}$ turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 332:
! 333: \begin{figure}[h]
! 334: \centering
! 335: \subfigure[$H_{T} >$ 75~GeV]{\epsfig{file=lowLum/l2ht75.eps,width=4.7cm}}
! 336: \subfigure[$H_{T} >$ 100~GeV]{\epsfig{file=lowLum/l2ht100.eps,width=4.7cm}}
! 337: \caption{L2 $H_{T}$ turn-on curves, low luminosity.}
! 338: \label{fig:l2htlo}
! 339: \end{figure}
! 340:
! 341: \begin{figure}[h]
! 342: \centering
! 343: \subfigure[$H_{T} >$ 75~GeV]{\epsfig{file=medLum/l2ht75.eps,width=4.7cm}}
! 344: \subfigure[$H_{T} >$ 100~GeV]{\epsfig{file=medLum/l2ht100.eps,width=4.7cm}}
! 345: \caption{L2 $H_{T}$ turn-on curves, medium luminosity.}
! 346: \label{fig:l2ht}
! 347: \end{figure}
! 348:
! 349: \begin{figure}[h]
! 350: \centering
! 351: \subfigure[$H_{T} >$ 75~GeV]{\epsfig{file=highLum/l2ht75.eps,width=4.7cm}}
! 352: \subfigure[$H_{T} >$ 100~GeV]{\epsfig{file=highLum/l2ht100.eps,width=4.7cm}}
! 353: \caption{L2 $H_{T}$ turn-on curves, high luminosity.}
! 354: \label{fig:l2hthi}
! 355: \end{figure}
! 356:
! 357: \newpage
! 358:
! 359:
! 360: \subsection{\label{app:mhtturnon_L2} Level 2 $\not\!\!E_{T}$ turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 361:
! 362: \begin{figure}[h]
! 363: \centering
! 364: \subfigure[$\not\!\!E_{T}$ $>$ 10~GeV]{\epsfig{file=lowLum/l2mhtv15.eps,width=4.7cm}}
! 365: \subfigure[$\not\!\!E_{T}$ $>$ 20~GeV]{\epsfig{file=lowLum/l2mhtv16.eps,width=4.7cm}}
! 366: \caption{L2 $\not\!\!E_{T}$ turn-on curves, low luminosity.}
! 367: \label{fig:l2mhtlo}
! 368: \end{figure}
! 369:
! 370:
! 371: \begin{figure}[h]
! 372: \centering
! 373: \subfigure[$\not\!\!E_{T}$ $>$ 10~GeV]{\epsfig{file=medLum/l2mhtv15.eps,width=4.7cm}}
! 374: \subfigure[$\not\!\!E_{T}$ $>$ 20~GeV]{\epsfig{file=medLum/l2mhtv16.eps,width=4.7cm}}
! 375: \caption{L2 $\not\!\!E_{T}$ turn-on curves, medium luminosity.}
! 376: \label{fig:l2mht}
! 377: \end{figure}
! 378:
! 379: \begin{figure}[h]
! 380: \centering
! 381: \subfigure[$\not\!\!E_{T}$ $>$ 10~GeV]{\epsfig{file=highLum/l2mhtv15.eps,width=4.7cm}}
! 382: \subfigure[$\not\!\!E_{T}$ $>$ 20~GeV]{\epsfig{file=highLum/l2mhtv16.eps,width=4.7cm}}
! 383: \caption{L2 $\not\!\!E_{T}$ turn-on curves, high luminosity.}
! 384: \label{fig:l2mhthi}
! 385: \end{figure}
! 386:
! 387:
! 388: \newpage
! 389:
! 390:
! 391: \subsection{\label{app:spherturnon_L2} Level 2 Sphericity turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 392:
! 393: \begin{figure}[h]
! 394: \centering
! 395: \subfigure[Sphericity $>$ 0.1 turn-on curve, low luminosity]{\epsfig{file=lowLum/l2spher.eps,width=4.7cm}}
! 396: \subfigure[Sphericity $>$ 0.1 turn-on curve, medium luminosity]{\epsfig{file=lowLum/l2spher.eps,width=4.7cm}}
! 397: \subfigure[Sphericity $>$ 0.1 turn-on curve, high luminosity]{\epsfig{file=medLum/l2spher.eps,width=4.7cm}}
! 398: \caption{L2 Sphericity turn-on curves.}
! 399: \label{fig:l2spher}
! 400: \end{figure}
! 401:
! 402:
! 403: \subsection{\label{app:sttip_L2} Level 2 STTIP turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 404:
! 405: \begin{figure}[h]
! 406: \centering
! 407: \subfigure[L2STTIP, 0 and 1 tight NN tags]{\epsfig{file=lowLum/l2stt01taglol.eps,width=4.7cm}}
! 408: \subfigure[L2STTIP, 2 and 3 tight NN tags]{\epsfig{file=lowLum/l2stt23taglol.eps,width=4.7cm}}
! 409: \caption{L2STTIP efficiency in the low luminosity range. Left: events with 0 (red) and 1 (black) tight NN b-tags. Right: events with 2 (red) and 3 (black) tight NN b-tags.}
! 410: \label{fig:l2STTlo}
! 411: \end{figure}
! 412:
! 413: \begin{figure}[h]
! 414: \centering
! 415: \subfigure[L2STTIP, 0 and 1 tight NN tags]{\epsfig{file=medLum/l2stt01tag.eps,width=4.7cm}}
! 416: \subfigure[L2STTIP, 2 and 3 tight NN tags]{\epsfig{file=medLum/l2stt23tag.eps,width=4.7cm}}
! 417: \caption{L2STTIP efficiency in the medium luminosity range. Left: events with 0 (red) and 1 (black) tight NN b-tags. Right: events with 2 (red) and 3 (black) tight NN b-tags.}
! 418: \label{fig:l2STT}
! 419: \end{figure}
! 420:
! 421: \begin{figure}[h]
! 422: \centering
! 423: \subfigure[L2STTIP, 0 and 1 tight NN tags]{\epsfig{file=highLum/l2stt01taghil.eps,width=4.7cm}}
! 424: \subfigure[L2STTIP, 2 and 3 tight NN tags]{\epsfig{file=highLum/l2stt23taghil.eps,width=4.7cm}}
! 425: \caption{L2STTIP efficiency in the high luminosity range. Left: events with 0 (red) and 1 (black) tight NN b-tags. Right: events with 2 (red) and 3 (black) tight NN b-tags.}
! 426: \label{fig:l2STThi}
! 427: \end{figure}
! 428:
! 429: \newpage
! 430:
! 431: \subsection{\label{app:jetturnon_L3} Level 3 jet turn on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 432:
! 433: \begin{figure}[h]
! 434: \centering
! 435: \subfigure[$p_{T} >$ 15~GeV]{\epsfig{file=lowLum/l3jetspt15.eps,width=4.7cm}}
! 436: \subfigure[$p_{T} >$ 25~GeV]{\epsfig{file=lowLum/l3jetspt25.eps,width=4.7cm}}
! 437: \caption{L3 jet turn-on curves, low luminosity.}
! 438: \label{fig:l3jetslo}
! 439: \end{figure}
! 440: %
! 441:
! 442: \newpage
! 443:
! 444:
! 445: \begin{figure}[h]
! 446: \centering
! 447: \subfigure[$p_{T} >$ 15~GeV]{\epsfig{file=medLum/l3jetspt15.eps,width=4.7cm}}
! 448: \subfigure[$p_{T} >$ 25~GeV]{\epsfig{file=medLum/l3jetspt25.eps,width=4.7cm}}
! 449: \caption{L3 jet turn-on curves, medium luminosity.}
! 450: \label{fig:l3jets}
! 451: \end{figure}
! 452: %
! 453: \begin{figure}[h]
! 454: \centering
! 455: \subfigure[$p_{T} >$ 15~GeV]{\epsfig{file=highLum/l3jetspt15.eps,width=4.7cm}}
! 456: \subfigure[$p_{T} >$ 25~GeV]{\epsfig{file=highLum/l3jetspt25.eps,width=4.7cm}}
! 457: \caption{L3 jet turn-on curves, high luminosity.}
! 458: \label{fig:l3jetshi}
! 459: \end{figure}
! 460:
! 461:
! 462: \subsection{\label{app:btagturnon_L3} Level 3 b-tag on curves for trigger JT2$\_$3JT15L$\_$IP$\_$VX}
! 463:
! 464: \begin{figure}[h]
! 465: %\vspace{-0.5cm}
! 466: \centering
! 467: \subfigure[0 and 1 $b$-tags.]{\epsfig{file=lowLum/l3btag01taglol.eps,width=4.0cm}}
! 468: \subfigure[2 and 3 $b$-tags.]{\epsfig{file=lowLum/l3btag23taglol.eps,width=4.0cm}}
! 469: %\vspace{-0.5cm}
! 470: \caption[L3 IP Trigger]{(a) Efficiency of the L3 $b$-tag (Level3 Event $b$-tag$<$ 0.4) for the low luminosity
! 471: range in triggerlist v15. The selected events passed the rest of the trigger and offline event selection and
! 472: had zero (red) or one (black) offline NN (TIGHT) $b$-tags. (b) Same for events with 2(red) and 3(black) offline NN (TIGHT) $b$-tags.}
! 473: \label{fig:l3iplo}
! 474: \end{figure}
! 475:
! 476: \newpage
! 477:
! 478: \begin{figure}[h]
! 479: %\vspace{-0.5cm}
! 480: \centering
! 481: \subfigure[0 and 1 $b$-tags.]{\epsfig{file=medLum/l3btag01tag.eps,width=4.0cm}}
! 482: \subfigure[2 and 3 $b$-tags.]{\epsfig{file=medLum/l3btag2tag.eps,width=4.0cm}}
! 483: %\vspace{-0.5cm}
! 484: \caption[L3 IP Trigger]{(a) Efficiency of the L3 $b$-tag (Level3 Event $b$-tag$<$ 0.4) for the medium luminosity
! 485: range in triggerlist v15. The selected events passed the rest of the trigger and offline event selection and had
! 486: zero (red) or one (black) offline NN (TIGHT) $b$-tags. (b) Same for events with 2(red) and 3(black) offline NN (TIGHT) $b$-tags.}
! 487: \label{fig:l3ip}
! 488: \end{figure}
! 489:
! 490: \begin{figure}[h]
! 491: %\vspace{-0.5cm}
! 492: \centering
! 493: \subfigure[0 and 1 $b$-tags.]{\epsfig{file=highLum/l3btag01taghil.eps,width=4.0cm}}
! 494: \subfigure[2 and 3 $b$-tags.]{\epsfig{file=highLum/l3btag23taghil.eps,width=4.0cm}}
! 495: %\vspace{-0.5cm}
! 496: \caption[L3 IP Trigger]{(a) Efficiency of the L3 $b$-tag (Level3 Event $b$-tag$<$ 0.4) for the high luminosity
! 497: range in triggerlist v15. The selected events passed the rest of the trigger and offline event selection and had
! 498: zero (red) or one (black) offline NN (TIGHT) $b$-tags. (b) Same for events with 2(red) and 3(black) offline NN (TIGHT) $b$-tags.}
! 499: \label{fig:l3iphi}
! 500: \end{figure}
! 501:
! 502:
! 503: \begin{figure}[h]
! 504: %\vspace{-0.5cm}
! 505: \centering
! 506: \subfigure[0 and 1 $b$-tags.]{\epsfig{file=lowLum/l3btag01tagv16lol.eps,height=4.0cm,width=4.0cm}}
! 507: \subfigure[2 and 3 $b$-tags.]{\epsfig{file=lowLum/l3btag2tagv16lol.eps,height=4.0cm,width=4.0cm}}
! 508: %\vspace{-0.5cm}
! 509: \caption[L3 IP Trigger]{(a) Efficiency of the L3 $b$-tag (Level3 Event $b$-tag$<$ 0.4) for the low luminosity
! 510: range in triggerlist v16. The selected events passed the rest of the trigger and offline event selection and
! 511: had zero (red) or one (black) offline NN (TIGHT) $b$-tags. (b) Same for events with 2(red) and 3(black) offline NN (TIGHT) $b$-tags.}
! 512: \label{fig:l3ipv16lo}
! 513: \end{figure}
! 514:
! 515: \begin{figure}[h]
! 516: %\vspace{-0.5cm}
! 517: \centering
! 518: \subfigure[0 and 1 $b$-tags.]{\epsfig{file=medLum/l3btag01tagv16.eps,height=4.0cm,width=4.0cm}}
! 519: \subfigure[2 and 3 $b$-tags.]{\epsfig{file=medLum/l3btag2tagv16.eps,height=4.0cm,width=4.0cm}}
! 520: %\vspace{-0.5cm}
! 521: \caption[L3 IP Trigger]{(a) Efficiency of the L3 $b$-tag (Level3 Event $b$-tag$<$ 0.4) for the medium luminosity
! 522: range in triggerlist v16. The selected events passed the rest of the trigger and offline event selection and had
! 523: zero (red) or one (black) offline NN (TIGHT) $b$-tags. (b) Same for events with 2(red) and 3(black) offline NN (TIGHT) $b$-tags.}
! 524: \label{fig:l3ipv16}
! 525: \end{figure}
! 526:
! 527: \begin{figure}[h]
! 528: %\vspace{-0.5cm}
! 529: \centering
! 530: \subfigure[0 and 1 $b$-tags.]{\epsfig{file=highLum/l3btag01tagv16hil.eps,height=4.0cm,width=4.0cm}}
! 531: \subfigure[2 and 3 $b$-tags.]{\epsfig{file=highLum/l3btag2tagv16hil.eps,height=4.0cm,width=4.0cm}}
! 532: %\vspace{-0.5cm}
! 533: \caption[L3 IP Trigger]{(a) Efficiency of the L3 $b$-tag (Level3 Event $b$-tag$<$ 0.4) for the high luminosity
! 534: range in triggerlist v16. The selected events passed the rest of the trigger and offline event selection and had
! 535: zero (red) or one (black) offline NN (TIGHT) $b$-tags. (b) Same for events with 2(red) and 3(black) offline NN (TIGHT) $b$-tags.}
! 536: \label{fig:l3ipv16hi}
! 537: \end{figure}
! 538:
! 539: \clearpage
! 540:
! 541:
! 542: \section{\label{app:discri_var}Discriminant variables}
! 543:
! 544: \noindent This appendix shows normalized plots of signal and background samples
! 545: for all discriminant variables tested for this analysis.
! 546:
! 547: \begin{figure}[h]
! 548: \includegraphics[scale=0.30]{plots/metl_allEW.eps}
! 549: \includegraphics[scale=0.30]{variables/aplan_all}
! 550: \includegraphics[scale=0.30]{variables/cent_all}
! 551: \includegraphics[scale=0.30]{variables/sqrts_all}
! 552: \includegraphics[scale=0.30]{variables/spher_all}
! 553: \includegraphics[scale=0.30]{variables/ht_all.eps}
! 554: \includegraphics[scale=0.30]{variables/topmassl_all}
! 555: \includegraphics[scale=0.30]{variables/costhetastar_all}
! 556:
! 557: \caption{Discriminant variables.}
! 558:
! 559: %\label{fig:variables_type2_bveto}
! 560: \end{figure}
! 561:
! 562: \clearpage
! 563:
! 564:
! 565: \section{\label{app:set_opt}Set optimization}
! 566:
! 567: \noindent In this appendix it is shown plots of the figure of merit (Equation \ref{merit}) used to
! 568: perform the NN variables set optimization as described in Section \ref{sub:NN-optimization}.
! 569:
! 570: \begin{figure}[b]
! 571: \includegraphics[scale=0.27]{SetOpt/ensemble1-40}
! 572: \includegraphics[scale=0.27]{SetOpt/ensemble12-40}
! 573: \includegraphics[scale=0.27]{SetOpt/ensemble13-40}
! 574: \includegraphics[scale=0.27]{SetOpt/ensemble14-40}
! 575: \includegraphics[scale=0.27]{SetOpt/ensemble15-40}
! 576: \includegraphics[scale=0.27]{SetOpt/ensemble3-40}
! 577: \includegraphics[scale=0.27]{SetOpt/ensemble4-40}
! 578: \includegraphics[scale=0.27]{SetOpt/ensemble5-40}
! 579: \includegraphics[scale=0.27]{SetOpt/ensemble7-40}
! 580: \includegraphics[scale=0.27]{SetOpt/ensemble9-40}
! 581: \includegraphics[scale=0.27]{SetOpt/ensemble10-40}
! 582: \includegraphics[scale=0.27]{SetOpt/ensemble12A-40}
! 583: \includegraphics[scale=0.27]{SetOpt/ensemble13A-40}
! 584: \includegraphics[scale=0.27]{SetOpt/ensemble14A-40}
! 585: \includegraphics[scale=0.27]{SetOpt/ensemble15A-40}
! 586: \includegraphics[scale=0.27]{SetOpt/ensemble16A-40}
! 587: \includegraphics[scale=0.27]{SetOpt/ensemble17A-40}
! 588: \includegraphics[scale=0.27]{SetOpt/ensemble18A-40}
! 589:
! 590: \caption{Sets of NN inputs variables with $\not\!\! E_{T}$ significance $>$ 4.0 for set optimization.}
! 591:
! 592: %\label{fig:variables_type2_bveto}
! 593: \end{figure}
! 594:
! 595: \clearpage
! 596:
! 597: \section{\label{app:set_opt}Set optimization continued}
! 598:
! 599: \noindent In this appendix it is shown plots of the figure of merit (Equation \ref{merit}) used to
! 600: perform the NN variables set optimization as described in Section \ref{sub:NN-optimization}.
! 601:
! 602: \begin{figure}[b]
! 603: \includegraphics[scale=0.27]{SetOpt/ensemble19A-40}
! 604: \includegraphics[scale=0.27]{SetOpt/ensemble20-40}
! 605: \includegraphics[scale=0.27]{SetOpt/ensemble21-40}
! 606: \includegraphics[scale=0.27]{SetOpt/ensemble22-40}
! 607: \includegraphics[scale=0.27]{SetOpt/ensemble23-40}
! 608: \includegraphics[scale=0.27]{SetOpt/ensemble24-40}
! 609: \includegraphics[scale=0.27]{SetOpt/ensemble25-40}
! 610: \includegraphics[scale=0.27]{SetOpt/ensemble26-40}
! 611: \includegraphics[scale=0.27]{SetOpt/ensemble27-40}
! 612: \includegraphics[scale=0.27]{SetOpt/ensemble28-40}
! 613: \includegraphics[scale=0.27]{SetOpt/ensemble29-40}
! 614: \includegraphics[scale=0.27]{SetOpt/ensemble30-40}
! 615: \includegraphics[scale=0.27]{SetOpt/ensemble31-40}
! 616: \includegraphics[scale=0.27]{SetOpt/ensembleMS-40}
! 617: \includegraphics[scale=0.27]{SetOpt/ensemble33-40}
! 618:
! 619: \caption{Sets of NN inputs variables with $\not\!\! E_{T}$ significance $>$ 4.0 for set optimization.}
! 620:
! 621: %\label{fig:variables_type2_bveto}
! 622: \end{figure}
! 623:
! 624: \clearpage
! 625:
! 626:
! 627: \section{\label{app:metl_opt}$\not\!\! E_{T}$ significance optimization}
! 628:
! 629: \begin{figure}[h]
! 630: \includegraphics[scale=0.27]{SetOpt/ensembleMS-30}
! 631: \includegraphics[scale=0.27]{SetOpt/ensembleMS-35}
! 632: \includegraphics[scale=0.27]{SetOpt/ensembleMS-40}
! 633: \includegraphics[scale=0.27]{SetOpt/ensembleMS-45}
! 634: \includegraphics[scale=0.27]{SetOpt/ensembleMS50}
! 635: %\includegraphics[scale=0.27]{SetOpt/pull9-35}
! 636: %\includegraphics[scale=0.27]{SetOpt/pull9-40}
! 637: %\includegraphics[scale=0.27]{SetOpt/pull9-45}
! 638: %\includegraphics[scale=0.27]{SetOpt/pull9-50}
! 639: %\includegraphics[scale=0.27]{SetOpt/pull9-55}
! 640:
! 641: \caption{Variation of $\not\!\! E_{T}$ significance cut for Set XXXII = metl, {$H_{T}$}, topmassl, aplan, sqrts.}
! 642:
! 643: %\label{fig:variables_type2_bveto}
! 644: \end{figure}
! 645:
! 646: \clearpage
! 647:
! 648: \section{\label{app:xsec_nocont}Cross section measurements when signal contamination is ignored}
! 649:
! 650: \noindent In this appendix it is shown plots of the figure of merit (Equation \ref{merit}) used to
! 651: perform the NN variables set optimization as described in Section \ref{sub:NN-optimization}.
! 652:
! 653: \subsection{\label{sub:xsectA}Results for Set = metl, {$H_{T}$}, topmassl, aplan, sqrts, metl $>$ 4.0, lumi = 4951.86/pb, VC jets and
! 654: NNelec $>$ 0.9}
! 655:
! 656: Table below summarizes the number of events in each channel after final selection.
! 657:
! 658:
! 659: \begin{table}[h]
! 660: \caption{Final number of events in the two analysis channels.}
! 661: %\begin{ruledtabular}
! 662: \begin{tabular}{cccccc}
! 663: \hline
! 664: &$\tau$ type I,II
! 665: &$\tau$ type I,II (fitted)
! 666: &$\tau$ type III
! 667: &$\tau$ type III (fitted)&\\
! 668: \hline
! 669: data&
! 670: 386 &
! 671: &
! 672: 459 &
! 673: &\\
! 674: $t\overline{t}\rightarrow\tau+jets$&
! 675: 72.04 $\pm$ 0.53&
! 676: &
! 677: 38.82 $\pm$ 0.39&\\
! 678: $t\overline{t}\rightarrow e+jets$&
! 679: 38.35 $\pm$ 0.36&
! 680: &
! 681: 6.52 $\pm$ 0.16&
! 682: &\\
! 683: $t\overline{t}\rightarrow\mu+jets$&
! 684: 4.81 $\pm$ 0.14&
! 685: &
! 686: 5.14 $\pm$ 0.14&
! 687: &\\
! 688: $t\overline{t}\rightarrow l+l$&
! 689: 6.02 $\pm$ 0.07&
! 690: &
! 691: 4.20 $\pm$ 0.06&
! 692: &\\
! 693: $t\overline{t}$ total MC&
! 694: &
! 695: 121.22 $\pm$ 0.43&
! 696: &
! 697: 54.68 $\pm$ 0.20&\\
! 698: $t\overline{t}$ total fitted&
! 699: &
! 700: 133.04 $\pm$ 17.09&
! 701: &
! 702: 33.12 $\pm$ 15.04&\\
! 703: $W$+jets&
! 704: 17.82 $\pm$ 0.33&
! 705: &
! 706: 11.26 $\pm$ 0.23&
! 707: &\\
! 708: $Z$+jets&
! 709: 2.78 $\pm$ 0.14&
! 710: &
! 711: 2.39 $\pm$ 0.12&
! 712: &\\
! 713: QCD&
! 714: &
! 715: 232.35 $\pm$ 17.09&
! 716: &
! 717: 412.22 $\pm$ 15.04\\
! 718: Signal significance&
! 719: &
! 720: 6.77&
! 721: &
! 722: 1.54
! 723: &\\
! 724: S/B ratio&
! 725: &
! 726: 0.52&
! 727: &
! 728: 0.08\\
! 729: \end{tabular}
! 730: %\end{ruledtabular}
! 731: \label{event yeild summary}
! 732: \end{table}
! 733:
! 734:
! 735: Without taking into account the signal contamination the result is (only statistical uncertainties are shown)
! 736:
! 737: \begin{center}$\tau$+jets types 1 and 2 cross section: \[\sigma (t\overline{t}) =
! 738: 8.05\;\;_{-1.02}^{+1.04}\;\;({\textrm{stat}})\;\;\pm 0.3\;\;({\textrm{lumi}})\;\; \rm{pb,}\]
! 739: \par\end{center}
! 740:
! 741: \begin{center}$\tau$+jets type 3 cross section: \[\sigma (t\overline{t}) =
! 742: 4.24\;\;_{-1.80}^{+1.94}\;\;({\textrm{stat}})\;\;\pm 0.3\;\;({\textrm{lumi}})\;\; \rm{pb,}\]
! 743: \par\end{center}
! 744:
! 745:
! 746:
! 747: \begin{center}Combined cross section: \[\sigma (t\overline{t}) =
! 748: 7.26\;\;_{-0.92}^{+0.92}\;\;({\textrm{stat}})\;\;\pm 0.3\;\;({\textrm{lumi}})\;\; \rm{pb,}\]
! 749: \par\end{center}
! 750:
! 751:
! 752: \clearpage
! 753:
! 754:
! 755: \subsection{\label{sub:xsectA}Results for Set = metl, {$H_{T}$}, topmassl, aplan, sqrts, metl $>$ 4.0, lumi = 4951.86/pb, VC jets and no NNelec cut}
! 756:
! 757: Table below summarizes the number of events in each channel after final selection.
! 758:
! 759:
! 760: \begin{table}[h]
! 761: \caption{Final number of events in the two analysis channels.}
! 762: %\begin{ruledtabular}
! 763: \begin{tabular}{cccccc}
! 764: \hline
! 765: &$\tau$ type I,II
! 766: &$\tau$ type I,II (fitted)
! 767: &$\tau$ type III
! 768: &$\tau$ type III (fitted)&\\
! 769: \hline
! 770: data&
! 771: 583 &
! 772: &
! 773: 459 &
! 774: &\\
! 775: $t\overline{t}\rightarrow\tau+jets$&
! 776: 85.46 $\pm$ 0.58&
! 777: &
! 778: 38.82 $\pm$ 0.39&\\
! 779: $t\overline{t}\rightarrow e+jets$&
! 780: 175.23 $\pm$ 0.85&
! 781: &
! 782: 6.52 $\pm$ 0.16&
! 783: &\\
! 784: $t\overline{t}\rightarrow\mu+jets$&
! 785: 8.98 $\pm$ 0.19&
! 786: &
! 787: 5.14 $\pm$ 0.14&
! 788: &\\
! 789: $t\overline{t}\rightarrow l+l$&
! 790: 12.62 $\pm$ 0.10&
! 791: &
! 792: 4.18 $\pm$ 0.06&
! 793: &\\
! 794: $t\overline{t}$ total MC&
! 795: &
! 796: 282.27 $\pm$ 1.05&
! 797: &
! 798: 54.67 $\pm$ 0.41&\\
! 799: $t\overline{t}$ total fitted&
! 800: &
! 801: 260.71 $\pm$ 20.74&
! 802: &
! 803: 35.73 $\pm$ 15.28&\\
! 804: $W$+jets&
! 805: 39.65 $\pm$ 0.50&
! 806: &
! 807: 11.26 $\pm$ 0.25&
! 808: &\\
! 809: $Z$+jets&
! 810: 4.56 $\pm$ 0.10&
! 811: &
! 812: 2.38 $\pm$ 0.11&
! 813: &\\
! 814: QCD&
! 815: &
! 816: 278.04 $\pm$ 20.74&
! 817: &
! 818: 409.62 $\pm$ 15.28\\
! 819: Signal significance&
! 820: &
! 821: 10.80&
! 822: &
! 823: 1.67
! 824: &\\
! 825: S/B ratio&
! 826: &
! 827: 0.80&
! 828: &
! 829: 0.08\\
! 830: \end{tabular}
! 831: %\end{ruledtabular}
! 832: \label{event yeild summary}
! 833: \end{table}
! 834: %
! 835:
! 836:
! 837: Without taking into account the signal contamination the result is (only statistical uncertainties are shown)
! 838:
! 839: \begin{center}$\tau$+jets types 1 and 2 cross section: \[\sigma (t\overline{t}) =
! 840: 6.47\;\;_{-0.53}^{+0.53}\;\;({\textrm{stat}})\;\;\pm 0.3\;\;({\textrm{lumi}})\;\; \rm{pb,}\]
! 841: \par\end{center}
! 842:
! 843: \begin{center}$\tau$+jets type 3 cross section: \[\sigma (t\overline{t}) =
! 844: 4.58\;\;_{-1.85}^{+1.96}\;\;({\textrm{stat}})\;\;\pm 0.3\;\;({\textrm{lumi}})\;\; \rm{pb,}\]
! 845: \par\end{center}
! 846:
! 847:
! 848:
! 849: \begin{center}Combined cross section: \[\sigma (t\overline{t}) =
! 850: 6.35\;\;_{-0.51}^{+0.51}\;\;({\textrm{stat}})\;\;\pm 0.3\;\;({\textrm{lumi}})\;\; \rm{pb,}\]
! 851: \par\end{center}
! 852:
! 853:
! 854:
! 855: %\section{Appendix A}
! 856:
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