1
Hgg Cut based Analysisupdate
Jim Branson, Chris Palmer, Marco Pieri, Matteo Sani, Sean Simon
2
Introduction• Trying to address the guidelines for Higgs Review from Higgs
conveners Oct 12th
• Description of analysis• Sequential cuts plots and yields• N-1 plots and final plots for all variables• Categories• Measurement of efficiency and photon variables distributions
with electrons with Z->ee• Systematic uncertainties• Sensitivity for 1fb-1• Fermiophobic Higgs interpretation• Summary of results
3
Description of Analysis
• Main background– Born/Box (irreducible)– Gamma+Jets (reducible)– QCD (reducible)
• Strategy– Remove nearly all reducible bkg– Separate into useful categories (in eta, R9, and
possibly Ptgammagamma)
4
Loose Pre-Selection• For now using all Photon HLT paths
– Very small effect expected – preselection tighter than cuts
• Spike Cleaning from 38X RECO• Lead pT > 30 GeV, Sublead pT > 20 GeV• 0 < || < 2.5
– H/E < 0.1– Track Iso hollow DR03 < 7.0 + 0.002*pT
– Ecal Iso DR03 < 8.4 + 0.012*pT
– Hcal Iso DR03 < 4.4+ 0.005*pT
5
Cut-Based Selection• Lead pT > 40 GeV, Sublead pT > 30 GeV• 0 < || < 1.4442 or 1.566 < || < 2.5 (we would like
to take it out)
– H/E < 0.02– ii < 0.01(EB) 0.028(EE)
– Pixel Veto– Track Iso hollow DR04 < 1.5 + 0.001*pT
– Ecal Iso DR04 < 2.0 + 0.006*pT
– Hcal Iso DR04 < 2.0 + 0.0025*pT
6
Disclaimer on sequential cuts and other plots
• Sequential cuts are applied (on the two photons at the same time)• After preselection lack of MC attributed to the Gen level Filter
– Ratio of filtered to unfiltered for GamJet gam + fake is 0.74 before cuts and 1 after cuts
– Not measured for QCD• For now use old PTDR K-Factors for BG and constant K-factor for Higgs
Signal (standard cross sections used in CMS)• Mass cut at 100 GeV is applied to account for generator level mass cut in
QCD and Gamma+Jet samples
7
Sequential Cuts Plots
– 0) Preselection– 1) pT
– 2) Track Iso– 3) Ecal Iso– 4) Hcal Iso– 5) ii
– 6) Pixel Veto– 7) H/E– 8) -Gap
0 1 2
3 4 5
6 7 8
Cut names
8
Sequential Cuts - Leading Photon
• More leading Photon variables in Backup
9
Lead pT
10
Lead ii
11
Lead R9
12
Sequential Cuts - Subleading Photon
• More Subleading Photon variables in Backup
13
Sublead pT
14
Sublead ii
15
Sublead R9
16
Sequential Cuts – Diphoton Variables
• More Diphoton variables in Backup
17
Sequential Cuts M
18
Sequential Cuts pT
19
Sequential Cuts – Tables
• Data/MC comparison 100-250 GeV Mass Range
• Data/MC Comparison in 120±5 GeV window (tables for masses 105,110,115,130, and 140 in Backup)
• Signal Expectation and Efficiency & Expected Background under peak at 120 GeV for ∫L=1fb-
1 (tables for 110,115,130, and 140 in Backup)
Data ∑MCbkgd-
Born-Box Jet QCD Drell-
Yan
Preselection 2.28E+04 1.22E+04 136.8 45.59 1268 1.03E+04 462.8
pT 7615 4969 110.4 35.2 870.5 3561 392.2
Track Iso 1519 1139 90.13 28.03 289.1 412.9 319.1
Ecal Iso 827 801.1 86.89 26.83 197.3 187.6 302.4
Hcal Iso 732 723 85.73 26.44 172.6 140.3 298
ii 555 576.6 83.59 25.69 118.8 62.42 286.1
Pixel Veto 189 213.4 71.33 22.67 84.83 34.5 0.06766
H/E 166 196.8 68.01 21.7 78.18 28.86 0.06766
Gap 156 186.1 64.43 20.72 74.22 26.7 0.06766
20
Data/MC Comparison• Mass Window 100-250 GeV• ∫L = 34.7 pb-1
• PTDR K-Factors
21
Data ∑MCbkgd-
Born-Box
Jet QCD Zee
Preselection 3192 1641 19.6 7.6 204.6 1351.0 58.0
pT 1076 672 15.3 5.9 141.6 458.4 50.4
Track Iso 192 161 12.5 4.7 46.2 56.3 41.4
Ecal Iso 104 111 12.1 4.4 31.1 23.3 39.5
Hcal Iso 94 98.8 11.9 4.4 26.9 16.6 38.9
ii 69 77.7 11.6 4.2 18.1 6.7 37.1
Pixel Veto 27 30.1 10.0 3.8 12.6 3.8 0.0
H/E 25 27.6 9.5 3.6 11.4 3.0 0.0
Gap 24 26.2 9.0 3.5 10.8 2.9 0.0
Data/MC Event Yields in Mass Window 120±5 GeV
for ∫L=34.7pb-1
Tables for 110, 115, 130 and 140 in Backup Slides
PTDR K-Factors
22
Signal Yield and Efficiency @ MH = 120 GeV for ∫L=1fb-1
MH = 120 GeV
Signal CUT ALL Background/GeV at 120
Preselection 29.35 0.674 0.674 4730
pT 25.64 0.874 0.589 1935
Track Iso 20.86 0.813 0.479 464.2
Ecal Iso 19.9 0.954 0.457 318.3
Hcal Iso 19.59 0.984 0.450 284.6
ii 18.74 0.957 0.431 223.9
Pixel Veto 16.61 0.886 0.382 86.73
H/E 15.79 0.951 0.363 79.41
Gap 15.02 0.951 0.345 75.47
Tables for 110, 115, 130 and 140 in Backup Slides
PTDR K-Factors
23
N-1 Plots – Lead Photon
• Mass Cut at 100 GeV applied• Lead Photon – More plots in Backup
24
Lead pT (N-1)
Lead pT > 40 GeV
Signal x 100
25
Lead pT
Lead pT > 40 GeV
Signal x 100
26
Lead ii (N-1)
ii
Signal x 100
27
Lead ii
ii
Signal x 100
28
N-1 Plots – sublead photon
• Mass Cut at 100 GeV applied• Sublead Photon – More plots in Backup
29
Sublead pT (N-1)
Lead pT > 40 GeV
Signal x 100
30
Sublead pT
Lead pT > 40 GeV
Signal x 100
31
Sublead ii (N-1)
ii
Signal x 100
32
Sublead ii
ii
Signal x 100
33
Photon Categories
• Photon Categories – More plots in Backup• We have different possibilities:
– R9 (worst photon determines the diphoton category)
• 2 cats: split at 0.93• 3 cats: split at 0.90 and 0.95
– |Eta| (larger |eta| determines the diphoton category)
• 2 cats split barrrel/endcap• 4 cats split 0.9, barrel/endcaps, 2.1
– Ptgammagamma• 2 cats 40 GeV• 3 cats 25 GeV and 50 GeV
• From these for now show (some in backup):– 4,6,12 cat R9, eta– 4 R9.eta x 2,3 Ptgamgam
34
All Selected Events
SIGNAL x 10
35
SIGNAL x 100
All Selected Events
36
2 R9 x 2 Eta
SIGNAL x 10
Signal In Categories2R9 x 2 Eta
37
Fraction of events (MH = 120 GeV)
Category
Total Signal
Gluon Fusion VBF Assoc.
Prod.
Background in Mass Window
0 0.346 0.344 0.375 0.332 0.212
1 0.325 0.327 0.326 0.295 0.294
2 0.170 0.170 0.158 0.198 0.237
3 0.159 0.159 0.142 0.175 0.257
38
2 R9 x 2 Eta x 2 pT
SIGNAL x 10
39
2 R9 x 2 Eta x 2 pT
SIGNAL x 10
Signal In Categories2R9 x 2 Eta x 2 pT
40
Fraction of events (MH = 120 GeV)
Category
TotalSignal
Gluon Fusion VBF Assoc.
Prod.
Background in Mass Window
0 0.140 0.121 0.301 0.267 0.045
1 0.119 0.103 0.253 0.225 0.060
2 0.063 0.054 0.120 0.146 0.061
3 0.055 0.048 0.106 0.126 0.054
4 0.206 0.223 0.074 0.065 0.167
5 0.207 0.224 0.073 0.070 0.234
6 0.108 0.116 0.038 0.052 0.175
7 0.103 0.111 0.035 0.049 0.203
Hi R9Lo R9Hi R9Lo R9Hi R9Lo R9Hi R9Lo R9
EB
EE
EB
EE
Hi pT
Lo pT
41
Photon Efficiency with Z Tag and Probe
• All results are (will appear) in:– CMS AN-2010/292 -- Photon Efficiency Measurements using Tag and
Probe
• Factorized T&P
42
Also study photon variables for electrons with pileup as function of NVTX
43
Background Estimate from Sidebands
• For now Exponential is fit to the mass distribution
• Still need to properly take out Higgs Mass hypothesis region
• Statistical error from the fit used in CLs method random experiments
44
Signal systematic error
• Using for now 12.5% quoted by N. Chanon
45
Sensitivity for 1 fb-1
REMAKE
46
Fermiophobic Higgs
• Only use information from Ptgamgam• Analysis is exactly the same as SM one• For now use 8 categories:
– 2 R9– 2 |eta|– 2 Ptgamgam
• For now extrapolate/interpolate sigma/BR
47
Fermiophobic H cross sections and BR (pb)
Mass(GeV) VBF WH+ZH BR FF VBF*BR
(ZH+WH)*BR
85 1.92 3.08 0.67 1.28 2.06
90 1.80 2.56 0.41 0.73 1.04
95 1.69 2.15 0.25 0.43 0.54
100 1.60 1.82 0.16 0.26 0.29
105 1.51 1.55 0.11 0.16 0.16
110 1.44 1.33 0.07 0.10 0.09
115 1.36 1.16 0.05 0.06 0.05
120 1.30 1.01 0.03 0.04 0.03
REMAKE
48
Looking at the data• Using 34.7 pb-1• Fundamental disclaimer: IT MAY BE WRONG IN
MANY PLACES– Need cross checking
• Only have mass points at 90 and 110 GeV• Approximate signal shape at other masses• Approximate sigma and BR• For the plots use 90 GeV (optimistic)• Signal and BG syst errors included• Mass resolution error probably optimistic (Need
laser corrections)
49
Fermiophobic Higgs ExclusionVery-very preliminary
REMAKE
50
Summary
• SM inclusive analysis in rather good shape• Checks on mass resolution ongoing in DPG• Will check better sensitivity and current
fermiophobic 1-CL result• Should cross check with others
51
Backup
Backup
52
Sequential Cuts - Leading Photon
• More leading Photon variables in Backup
53
Lead Pixel Veto
54
Lead Track Isolation
55
Lead Ecal Isolation
56
Lead Ecal Isolation
57
Lead Hcal Isolation
58
Lead pT
59
Lead pT
60
Lead ii
61
Lead ii
62
Lead H/E
63
Lead Gap
64
Lead R9
65
Lead R9
66
Sequential Cuts - Subleading Photon
• More Subleading Photon variables in Backup
67
Sublead Pixel Veto
68
Sublead Track Isolation
69
Sublead Ecal Isolation
70
Sublead Ecal Isolation
71
Sublead Hcal Isolation
72
Sublead pT
73
Sublead pT
74
Sublead ii
75
Sublead ii
76
Sublead H/E
77
Sublead -Gap
78
Sublead R9
79
Sublead R9
80
Sequential Cuts – Diphoton Variables
• More Diphoton variables in Backup
81
Sequential Cuts M
82
Sequential Cuts pT
83
Sequential Cuts pT
84
Sequential Cuts
85
Sequential Cuts
86
Sequential Cuts cos(*)
87
Data ∑MCbkgd-
Born-Box
Jet QCD Zee
Preselection 4167 2141.0 26.3 11.2 295.2 1680.0 128.4
pT 1437 892.8 19.5 8.1 191.7 566.5 107.0
Track Iso 338 239.6 16.0 6.5 61.6 67.1 88.3
Ecal Iso 192 178.0 15.4 6.2 41.2 31.5 83.6
Hcal Iso 179 164.9 15.2 6.1 36.4 24.6 82.5
ii 143 137.7 14.8 5.9 24.3 13.1 79.6
Pixel Veto 40 42.9 12.6 5.2 17.2 7.8 0.0
H/E 37 39.4 12.1 5.0 15.8 6.5 0.0
Gap 37 37.3 11.4 4.8 14.9 6.1 0.0
Data/MC Event Yields in Mass Window 110±5 GeV
for ∫L=34.7pb-1
PTDR K-Factors
88
Data ∑MCbkgd-
Born-Box
Jet QCD Zee
Preselection 3584 1873.0 22.6 9.2 249.3 1509.0 83.1
pT 1217 772.5 17.4 6.8 166.0 511.3 71.0
Track Iso 263 195.1 14.2 5.4 53.7 63.4 58.4
Ecal Iso 143 138.2 13.7 5.2 35.4 28.8 55.2
Hcal Iso 134 126.0 13.5 5.1 31.0 22.0 54.4
ii 102 102.4 13.1 5.0 20.5 11.4 52.5
Pixel Veto 41 37.3 11.2 4.4 14.7 7.0 0.0
H/E 39 34.2 10.7 4.2 13.7 5.5 0.0
Gap 38 32.4 10.2 4.0 13.0 5.3 0.0
Data/MC Event Yields in Mass Window 115±5 GeV
for ∫L=34.7pb-1
PTDR K-Factors
89
Data ∑MCbkgd-
Born-Box
Jet QCD Zee
Preselection 2494 1314.0 15.7 5.2 144.1 1115.0 34.5
pT 817 540.2 12.7 4.1 102.2 390.2 31.0
Track Iso 182 118.1 10.4 3.2 33.3 46.8 24.4
Ecal Iso 94 78.3 10.0 3.1 22.6 19.7 22.8
Hcal Iso 80 70.0 9.9 3.1 19.7 14.8 22.6
ii 54 54.5 9.6 3.0 13.2 6.9 21.9
Pixel Veto 26 23.9 8.2 2.6 9.5 3.6 0.0
H/E 22 22.3 7.9 2.5 8.6 3.3 0.0
Gap 19 21.3 7.5 2.4 8.3 3.2 0.0
Data/MC Event Yields in Mass Window 130±5 GeV
for ∫L=34.7pb-1
PTDR K-Factors
90
Data ∑MCbkgd-
Born-Box
Jet QCD Zee
Preselection 2019 1065.0 12.3 3.7 106.7 919.5 22.9
pT 637 440.3 10.3 3.0 77.1 328.9 21.0
Track Iso 112 89.3 8.4 2.4 25.7 36.3 16.5
Ecal Iso 52 60.4 8.0 2.3 17.2 17.3 15.7
Hcal Iso 44 53.3 7.9 2.3 15.0 12.7 15.4
ii 37 39.7 7.7 2.2 10.6 4.3 14.9
Pixel Veto 20 18.2 6.5 1.9 7.3 2.4 0.0
H/E 16 17.1 6.3 1.9 6.7 2.3 0.0
Gap 16 16.1 5.9 1.8 6.5 1.9 0.0
Data/MC Event Yields in Mass Window 140±5 GeV
for ∫L=34.7pb-1
PTDR K-Factors
91
MH = 110 GeV
Signal CUT ALL Background/GeV at 110
Preselection 29.42 0.6498 6169.0
pT 24.54 0.5421 2573.0
Track Iso 20.03 0.4423 690.4
Ecal Iso 19.11 0.4221 512.8
Hcal Iso 18.81 0.4154 475.2
ii 17.99 0.3973 396.8
Pixel Veto 15.95 0.3523 123.6
H/E 15.16 0.3348 113.4
Gap 14.44 0.3188 107.4
Signal Yield and Efficiency @ MH = 110 GeV for ∫L=1fb-1
PTDR K-Factors
92
MH = 115 GeV
Signal CUT ALL Background/GeV at 115
Preselection 29.75 0.664 5398.0
pT 25.39 0.5666 2226.0
Track Iso 20.65 0.4608 562.2
Ecal Iso 19.67 0.439 398.3
Hcal Iso 19.37 0.4324 363.1
ii 18.55 0.414 295.2
Pixel Veto 16.43 0.3667 107.4
H/E 15.63 0.3489 98.5
Gap 14.89 0.3323 93.5
Signal Yield and Efficiency @ MH = 115 GeV for ∫L=1fb-1
PTDR K-Factors
93
MH = 130 GeV
Signal CUT ALL Background/GeV at 130
Preselection 25.68 0.6895 3787
pT 23.05 0.6187 1557
Track Iso 18.8 0.5047 340.3
Ecal Iso 17.93 0.4813 225.6
Hcal Iso 17.64 0.4736 201.7
ii 16.92 0.4543 157.1
Pixel Veto 15 0.4026 68.93
H/E 14.25 0.3825 64.31
Gap 13.54 0.3634 61.51
Signal Yield and Efficiency @ MH = 130 GeV for ∫L=1fb-1
PTDR K-Factors
94
MH = 140 GeV
Signal CUT ALL Background/GeV at 140
Preselection 19.42 0.7049 3069
pT 17.79 0.6457 1269
Track Iso 14.49 0.5258 257.3
Ecal Iso 13.85 0.5027 174.2
Hcal Iso 13.62 0.4945 153.7
ii 13.07 0.4744 114.5
Pixel Veto 11.61 0.4214 52.44
H/E 11.04 0.4008 49.39
Gap 10.52 0.3818 46.29
Signal Yield and Efficiency @ MH = 140 GeV for ∫L=1fb-1
PTDR K-Factors
Data ∑MCbkgd-
Born-Box Jet QCD Drell-
Yan
Preselection 2.28E+04 1.21E+04 91.22 38 1206 1.03E+04 462.8
pT 7615 4886 73.6 29.34 829.6 3561 392.2
Track Iso 1519 1076 60.07 23.36 260.2 412.9 319.1
Ecal Iso 827 740.8 57.91 22.36 170.6 187.6 302.4
Hcal Iso 732 663.9 57.14 22.04 146.5 140.3 298
ii 555 519.3 55.72 21.41 93.64 62.42 286.1
Pixel Veto 189 164.4 47.56 18.9 63.4 34.5 0.06766
H/E 166 150.1 45.35 18.09 57.71 28.86 0.06766
Gap 156 141.7 42.96 17.27 54.67 26.7 0.06766
95
Data/MC Comparison• Mass Window 100-250 GeV• ∫L = 34.7 pb-1
• No K-Factors
96
Data ∑MCbkgd-
Born-Box
Jet QCD
Preselection 3192 1624
pT 1076 659.2
Track Iso 192 151.9
Ecal Iso 104 101.8
Hcal Iso 94 90.29
ii 69 69.44
Pixel Veto 27 23.03
H/E 25 20.87
Gap 24 19.83
Data/MC Event Yields in Mass Window 120±5 GeV
for ∫L=34.7pb-1
No K-Factors
97
Signal Yield and Efficiency @ MH = 120 GeV for ∫L=1fb-1
MH = 120 GeV
Signal CUT ALL Background/GeV at 120
Preselection 29.4 0.674 0.674 4680
pT 25.6 0.874 0.589 1900
Track Iso 20.9 0.813 0.479 437.8
Ecal Iso 19.9 0.954 0.457 293.4
Hcal Iso 19.6 0.984 0.450 260.2
ii 18.7 0.957 0.431 200.1
Pixel Veto 16.6 0.886 0.382 66.38
H/E 15.8 0.951 0.363 60.13
Gap 15.0 0.951 0.345 57.16
No K-Factors
98
N-1 Plots – Lead Photon
• Lead Photon – More plots in Backup
99
Lead pT (N-1)
Lead pT > 40 GeV
Signal x 100
100
Lead pT
Lead pT > 40 GeV
Signal x 100
101
Lead (N-1)
Suoercluster or
Signal x 100
102
Lead
Suoercluster or
Signal x 100
103
Lead H/E (N-1)
H/E < 0.02
Signal x 100
104
Lead H/E
H/E < 0.02
Signal x 100
105
Lead ii (N-1)
ii
Signal x 100
106
Lead ii
ii
Signal x 100
107
Lead Pixel Veto (N-1)
Veto Pixel Seed
Signal x 100
108
Lead Pixel Veto
Veto Pixel Seed
Signal x 100
109
Lead Track Isolation (N-1)
Track Sum pT (Hollow R < 0.4) < 1.5 + 0.001*pT
Signal x 100
110
Lead Track Isolation
Track Sum pT (Hollow R < 0.4) < 1.5 + 0.001*pT
Signal x 100
111
Lead Ecal Isolation (N-1)
Ecal Sum ET (R < 0.4) < 2.0 + 0.006*pT
Signal x 100
112
Lead Ecal Isolation
Ecal Sum ET (R < 0.4) < 2.0 + 0.006*pT
Signal x 100
113
Lead Hcal Isolation (N-1)
Hcal Sum ET (R < 0.4) < 2.0 + 0.0025*pT
Signal x 100
114
Lead Hcal Isolation
Hcal Sum ET (R < 0.4) < 2.0 + 0.0025*pT
Signal x 100
115
N-1 Plots – sublead photon
• Sublead Photon – More plots in Backup
116
Sublead pT (N-1)
Lead pT > 40 GeV
Signal x 100
117
Sublead pT
Lead pT > 40 GeV
Signal x 100
118
Sublead (N-1)
Suoercluster or
Signal x 100
119
Sublead
Suoercluster or
Signal x 100
120
Sublead H/E (N-1)
H/E < 0.02
Signal x 100
121
Sublead H/E
H/E < 0.02
Signal x 100
122
Sublead ii (N-1)
ii
Signal x 100
123
Sublead ii
ii
Signal x 100
124
Sublead Pixel Veto (N-1)
Veto Pixel Seed
Signal x 100
125
Sublead Pixel Veto
Veto Pixel Seed
Signal x 100
126
Sublead Track Isolation (N-1)
Track Sum pT (Hollow R < 0.4) < 1.5 + 0.001*pT
Signal x 100
127
Sublead Track Isolation
Track Sum pT (Hollow R < 0.4) < 1.5 + 0.001*pT
Signal x 100
128
Sublead Ecal Isolation (N-1)
Ecal Sum ET (R < 0.4) < 2.0 + 0.006*pT
Signal x 100
129
Sublead Ecal Isolation
Ecal Sum ET (R < 0.4) < 2.0 + 0.006*pT
Signal x 100
130
Sublead Hcal Isolation (N-1)
Hcal Sum ET (R < 0.4) < 2.0 + 0.0025*pT
Signal x 100
131
Sublead Hcal Isolation
Hcal Sum ET (R < 0.4) < 2.0 + 0.0025*pT
Signal x 100
132
Photon Categories
• Photon Categories – More plots in Backup• We have different possibilities:
– R9 (worst photon determines the diphoton category)
• 2 cats: split at 0.93• 3 cats: split at 0.90 and 0.95
– |Eta| (larger |eta| determines the diphoton category)
• 2 cats split barrrel/endcap• 4 cats split 0.9, barrel/endcaps, 2.1
– Ptgammagamma• 2 cats 40 GeV• 3 cats 25 GeV and 50 GeV
• From these for now show (some in backup):– 4,6,12 cat R9, eta– 4 R9.eta x 2,3 Ptgamgam
133
3 R9 x 4 Eta
SIGNAL x 10
Signal In Categories3R9 x 4 Eta
134
Fraction of events (MH = 120 GeV)
Category
TotalSignal
Gluon Fusion VBF Assoc.
Prod.
Background in Mass Window
0 0.131 0.131 0.144 0.121 0.060
1 0.094 0.093 0.103 0.092 0.058
2 0.098 0.099 0.100 0.084 0.076
3 0.094 0.093 0.100 0.093 0.074
4 0.074 0.074 0.083 0.079 0.061
5 0.179 0.181 0.171 0.159 0.178
6 0.069 0.069 0.067 0.076 0.077
7 0.055 0.055 0.055 0.066 0.067
8 0.101 0.101 0.089 0.107 0.152
9 0.054 0.054 0.047 0.066 0.085
10 0.022 0.022 0.019 0.027 0.055
11 0.029 0.029 0.022 0.032 0.059
Categories
135
No Categories
• All Events Mass Plots– Signal Stacked– Signal Out Front
136
137
All Selected Events
SIGNAL x 10
138
SIGNAL x 100
All Selected Events
4 Categories
• 4 Categories Mass Plots– Signal Stacked– Signal Out Front– Fine Binning (Signal Out Front)– Category Table
139
140
2 R9 x 2 Eta
SIGNAL x 10
141
2 R9 x 2 Eta
SIGNAL x 10
142
2 R9 x 2 Eta
SIGNAL x 10
Signal In Categories2R9 x 2 Eta
143
Fraction of events (MH = 120 GeV)
Category
Total Signal
Gluon Fusion VBF Assoc.
Prod.
Background in Mass Window
0 0.346 0.344 0.375 0.332 0.212
1 0.325 0.327 0.326 0.295 0.294
2 0.170 0.170 0.158 0.198 0.237
3 0.159 0.159 0.142 0.175 0.257
8 Categories
• 8 Categories Mass Plots– Signal Stacked– Signal Out Front– Fine Binning (Signal Out Front)– Category Table
144
145
2 R9 x 2 Eta x 2 pT
SIGNAL x 10
146
2 R9 x 2 Eta x 2 pT
SIGNAL x 10
147
2 R9 x 2 Eta x 2 pT
SIGNAL x 10
Signal In Categories2R9 x 2 Eta x 2 pT
148
Fraction of events (MH = 120 GeV)
Category
TotalSignal
Gluon Fusion VBF Assoc.
Prod.
Background in Mass Window
0 0.140 0.121 0.301 0.267 0.045
1 0.119 0.103 0.253 0.225 0.060
2 0.063 0.054 0.120 0.146 0.061
3 0.055 0.048 0.106 0.126 0.054
4 0.206 0.223 0.074 0.065 0.167
5 0.207 0.224 0.073 0.070 0.234
6 0.108 0.116 0.038 0.052 0.175
7 0.103 0.111 0.035 0.049 0.203
Hi R9Lo R9Hi R9Lo R9Hi R9Lo R9Hi R9Lo R9
EB
EE
EB
EE
Hi pT
Lo pT
8 Categories
• 8 Categories DiPhoton PT Plots– Signal Stacked and Scaled by 10– Signal Out Front and Scaled by 50
149
150
2 R9 x 2 Eta x 2 pT
SIGNAL x 10
151
2 R9 x 2 Eta x 2 pT
SIGNAL x 50
EXTRA
• 12 Categories Mass Plots– Signal Stacked– Signal Out Front– Fine Binning (Signal Out Front)– category table
152
153
3 R9 x 4 Eta
SIGNAL x 10
154
3 R9 x 4 Eta
SIGNAL x 10
155
3 R9 x 4 Eta
SIGNAL x 10
Signal In Categories3R9 x 4 Eta
156
Fraction of events (MH = 120 GeV)
Category
TotalSignal
Gluon Fusion VBF Assoc.
Prod.
Background in Mass Window
0 0.131 0.131 0.144 0.121 0.060
1 0.094 0.093 0.103 0.092 0.058
2 0.098 0.099 0.100 0.084 0.076
3 0.094 0.093 0.100 0.093 0.074
4 0.074 0.074 0.083 0.079 0.061
5 0.179 0.181 0.171 0.159 0.178
6 0.069 0.069 0.067 0.076 0.077
7 0.055 0.055 0.055 0.066 0.067
8 0.101 0.101 0.089 0.107 0.152
9 0.054 0.054 0.047 0.066 0.085
10 0.022 0.022 0.019 0.027 0.055
11 0.029 0.029 0.022 0.032 0.059
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