dØ search for the higgs boson in multijet events alex melnitchouk
DESCRIPTION
DØ Search for the Higgs Boson in Multijet Events Alex Melnitchouk University of Mississippi For the DØ Collaboration. PANIC 05 Santa Fe, NM, October 2005. Introduction. - PowerPoint PPT PresentationTRANSCRIPT
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DØDØ Search for the Higgs Boson Search for the Higgs Boson in Multijet Eventsin Multijet Events
Alex MelnitchoukAlex Melnitchouk
University of MississippiUniversity of Mississippi
For the DØ CollaborationFor the DØ Collaboration
PANIC 05 Santa Fe, NM, October 2005
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Introduction
• Two analyses are presented in this talk:
ZHbb and b(b)hb(b)bb • ZHbb : a DØ Search for the Standard Model Higgs
• b(b)hb(b)bb : SUSY Higgs Search at DØ
• In both analyses final state contains b-jets
need good understanding of calorimeter response and b-tagging
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DØ Calorimeter and Tracking System
• Uranium/Liquid Argon Sampling Calorimeter
• Three modules: -- central calorimeter (CC) -- two end-cap calorimeters (EC)
Unit cellEnd-View
Fiber Tracker end-view
One-Quarter r-z View of Tracking System
• Central Fiber and Silicon Miscrostrip Tracker
Silicon Microstrip Tracker
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SM Higgs boson production• gg fusion
– Dominates at hadron machines– Usefulness depends on the Higgs decay channel
• In association with W, Z (higgsstrahlung)– Important at hadron colliders since can
trigger on 0/1/2 high-pT leptons
• ttH and bbH associated production– High-pT lepton, top reconstruction, b-tag
– Low rate at the Tevatron
• Vector Boson Fusion– Two high-pT forward jets help to “tag” event
– Important at LHC
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Low Mass Region Higgs Searches. Why ZH bb
MH < 135 GeV: H bb
• Higgs produced in gluon fusion has too large QCD/bb background
• Search for (W/Z)H production where W/Z decay leptonically
– qq’ W* WH ℓbb• Bkgd: Wbb, WZ, tt, single top
– qq Z* ZH ℓ+ℓ-bb• Bkgd: Zbb, ZZ, tt
– qq Z* ZH bb• Bkgd: QCD, Zbb, ZZ, tt
• Cross-Sectin x Branching Fraction 0.01 pb (almost as large as qq’ W* WH ℓbb )
• Tag b-jets• Disentangle H bb peak in di-b-jet
mass spectrum
ggH
HW
HZ
Hqq
Htt
Hbb
(pp H + X) [pb]
√s = 2 TeV
MH [GeV]H bb
Exc
lud
ed a
t L
EP
Exc
lud
ed a
t L
EP
B(Z)=20%
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ZHbb searches
• Missing ET from Z and 2 b jets from Hbb
– Large missing ET > 25 GeV
– 2 acoplanar b-jets with ET 20 GeV, || < 2.5
• Backgrounds– “physics”
• W+jets, Z+jets, top, ZZ and WZ
– “instrumental”• QCD multijet events with mismeasured jets
– Huge cross section & small acceptance
• Strategy– Trigger on events with large missing HT
• HT defined as a vector sum of jets’ ET
– Estimate “instrumental” background from data
– Search for an event excess in di-b-jet mass distribution
Z Z
H
b
b
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More selection variables
• Suppress “physics” background– In addition to missing ET > 25 GeV and two jets with ET 20 GeV
– Veto evts. with isolated tracks reject leptons from W/Z
– HT = |pT(jets)| < 200 GeV for tt rejection
• Reduce “instrumental” background– Jet acoplanarity (dijet) < 165– Various missing energy/momentum variables
• ET calculated using calorimeter cells
• HT = – |pT(jet)| … jets
• PTtrk = – |pT(trk)| … tracks
• PT,2trk = – |pT(trk in dijet)| … tracks in jets
• Form various asymmetries– Asym(ET,HT) = (ET – HT)/(ET+HT)
– Rtrk = |PTtrk – PT,2
trk|/PTtrk
In signal like events they all peak at ~ 0 and are aligned
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Example: ET,HT Asymmetry
• In signal events there is PT balance between Higgs and Z-boson
PT balance between and bb
Asymmetry(ET,HT) = (ET – HT)/(ET+HT) peaks at 0
• Instrumental background (calorimeter mismeasurements of multijet events) Large Asymmetry(ET,HT)
Jet1
Jet2
ET HT
Z Z
H
b
b
Signal MC
Instrumental bkgd MC
ET in QCD
event with mis-measured jet
bb
bb
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Instrumental bkgd. from sidebands
Exponential
DoubleGaussian
Background Estimation
Physics bkgd. from MC
signal
sidebandsideband
Data
Data: 2140 Data: 2140 Expected: 2125Expected: 2125
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ZHbb: Distributions before b-tagging
Total Data : 2140Expect : 2125
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Singly b-tagged events
Total Data : 132Expect : 145
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ZHbb: Doubly b-tagged events
Total Data : 9Expect : 6.4
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Results (double b-tag)
Mass (GeV)
Window
105
[70,120]
115
[80,130]
125
[90,140]
135
[100,150]
Data 4 3 2 2
Acceptance (%) 0.29 0.07
0.33 0.08 0.35 0.09
0.34 0.09
Total bkgd. 2.75 0.88
2.19 0.72 1.93 0.66
1.71 0.57
Expected limit (pb) 8.8 7.5 6.0 6.5
Limit @95% C.L. (pb) 12.2 9.3 7.7 8.5
32Wjj/Wbb
31Zjj/Zbb
16Instrumental
15Top
6WZ/ZZ
Source Sig bkgd
Jet ID 7 6
JES 7 8
Jet energy resolution 5 3
b-tagging 22 25
Instrumental bkgd. - 2
Bkgd Cross Section - 17
Total 26 33
Systematic uncertainty (%)
Bkgd. composition (%)
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SUSY Higgs
• SUSY Higgs sector consists of more than one Higgs particle
• e.g. Minimal Supersymmetric Model (MSSM) : – two complex scalar Higgs doublets– two VEV’s v1 and v2 (tan=v1/v2)– 5 Higgs particles : h0, H0, A0, H+, H-
In this talk: Search for Neutral Higgses
• At large tan Higgs coupling to down-type quarks i.e. b-quarks is enhanced with respect to the Standard Model: at tree level ~tan production cross-section rises as tan2
• CP-conservation in the Higgs sector is assumed Mass degeneracy (100-130 GeV: h0,H0,A0 ; higher mass: h0,A0 or H0,A0) Total signal cross-section is assumed to be twice that of the A boson
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Higgs boson production in association with b quarks
• Two ways to calculate b(b) processes
• Both calculations are available at NLO and agree within uncertainties
S. Dawson, C. Jackson,L. Reina, D. Wackeroth
J. Campbell, R. Ellis,F. Maltoni, S. Willenbrock
gbbh
gbbhgg,qqbbh
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SUSY Higgs boson search• Multijet trigger
– L1: 3 jets of > 5 GeV, L2: HT > 50 GeV, L3: 3 jets with ET > 15 GeV
• Offline: at least 3 b-tagged jets– pT and cuts optimized for Higgs mass and # of required jets
• Look for excess in di-jet mass
• Signal rates and kinematics are normalized to NLO calculations• Bkgd. shape determined from doubly b-tagged data by applying tag rate
function to non-b-tagged jets
Fitting outside signal region (±1of peak)
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b(b)h:Cross-check of bkgd. method: doubly b-tag sample
• Jet tag rate is estimated from data
• Singly b-tag + TRF di-jet spectrum agrees with doubly b-tag sample
• Additional cross-check is done with ALPGEN MC
• Normalization of MC HF multi-jet processes (mainly bbjj + some bbbb) is left as a free parameter in the fit
– HF bkgd. agrees within with ALPGEN within ~10%
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Signal acceptance and systematics
• Signal acceptance is ~ 0.3–1% depending on mA and final state
Acceptance breakdown (%)
• Systematics on signal efficiency is 21% total:– b-tagging (15%), JES/resolution (9%), signal simulation (5%), trigger (9%),
luminosity measurement (6.5%)
• Systematic uncertainties for background estimation ~ 3%
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Results• Expected and measured 95%
C.L. upper limits on the signal cross section
• The 95% C.L. upper limits on tan as a function of mA and for two scenarios of MSSM
• With 5 fb-1 of data, assuming the current performance, can probe tan values down to 20-30 depending on the mass, model
• No mixing in stop sector: Xt = 0Xt = At – cot, At – tri-linear coupling, = – 0.2 TeV
• Maximal mixing: Xt = √6×MSUSY, MSUSY= 1 TeV
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Expected Improvements in b-tagging
Impact parameter resolution
0
20
40
60
80
100
120
140
160
180
200
0.1 1 10 100PT, GeV/c
(i
p),
um
SMT 2a simulation
D0 data, 2a
L0-noL1
No L1
Continue improving b-tagging (Neural Net)
the NN tagger combines the 3 b-tagging
algorithms used in DØ
Layer Zero of the Silicon Tracker Upgrade
Layer Zero detector is scheduled to be installed in spring 2006
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Tevatron Performance
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Summary
• Standard Model and SUSY Higgs searches in multijet events at the Tevatron/DØ Run II have started
• Upgraded accelerator and DØ are performing well, more data are being accumulated (1 fb-1 on tape !)
• Work is in progress on improving b-tagging (algorithms, silicon tracker upgrade)
• Stay tuned for new results
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Next Slide is a Backup Slide
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Multi-b-jet background estimation
Full multi-jetdata sample
Doubly b-taggeddata sample
Calculate TRF(ET & 3 regions of )
Apply TRF
Triply b-taggedbackground shape
Fit outside to real triplyb-tagged distribution
Cross-check of bkgd. estimation method
Tag Rate Function
Correct TRF for HF contamination (~ 8%)