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Higgs Searches at the Tevatron (Run I)

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ET(j) cuts depending on m(j) 3 b-tags. DF(bb) 109 (against g bb) Backgrounds: ... Limit (95%CL for Mj = 100 GeV): convert s BR limit in tanb vs Higgs mass exclusion ... – PowerPoint PPT presentation

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Title: Higgs Searches at the Tevatron (Run I)


1
Higgs Searches at the Tevatron (Run I)
Lorenzo Moneta University of Geneva on behalf of
CDF and D? collaboration
  • Introduction
  • SM Higgs
  • ZH WH with H ? bb (CDF D?)
  • MSSM Higgs
  • bbf with fH0,h0,A0 (CDF)
  • H (CDF D?)
  • Fermiophobic Higgs
  • H ? gg (CDF D?)
  • Conclusions



2
Introduction
  • Electroweak Symmetry breaking in the SM predicts
    existence of an Higgs boson but with unspecified
    mass
  • Higgs mass constraints scale ? where SM might
    break down
  • if ? MPlank then 130 lt M(H) lt 180
  • Current Status of Higgs searches
  • SM fit to Electroweak data indicates a light
    Higgs
  • M(H) lt 200 GeV _at_ 95 CL
  • Direct searches from LEP2
  • 95 CL limit is 113 GeV
  • Indication of Higgs-like events
  • in the last year data
  • excess 3? at M(H) ?115 GeV

3
Tevatron (Run I)
  • Tevatron
  • proton-antiproton collision _at_ ?s 1.8 TeV

CDF
DØ
  • Run I (Oct. 92 ? Feb. 96)
  • total integrated luminosity
  • 120-1 pb / detector

Expected 2 fb-1 in Run IIa !
4
SM H0 production _at_ Tevatron
  • Gluon Fusion
  • too difficult (QCD background)
  • Higgsstrahlung
  • SM cross section is very small
  • 1/20 s(t-tbar)
  • 1/500 s(Z/W ? 2 jets)
  • possible with Run II luminosity !
  • larger s with new physics ??

s 0.70 pb
for M(H) 120 Gev/c2 with QCD NLO correction
WH s 0.16 pb
ZH s 0.10 pb
  • Vector Boson fusion
  • radiation off heavy quark
  • very small s in the SM

5
SM Higgs decays
  • M(H) lt 130 GeV
  • dominant decay is
  • final states are for W/ZH
  • need lepton ID/MET b-tags
  • M(H) gt 130 GeV
  • dominant decay is
  • final state with ? 2 leptons
  • but smaller cross-section
  • interesting at RunII !

For M(H) 120 GeV/c2
6
SM H signatures (W /Z H)
  • Tevatron Run I channels (W/Z H with M(H) lt
    130 GeV)
  • BG QCD multijets
  • BG
  • BG QCD,
  • BG

( 50 of W/Z H )
( 9 )
( 5.4)
( 1.8)
  • Essential for these analyses
  • b tagging
  • good di-jet mass resolution

7
b tagging at the Tevatron
  • Techniques developed for top analyses. Two
    algorithms
  • Soft Lepton Tagging (SLT) (CDF DØ)
  • semileptonic b decays
  • DØ m ( pT gt 4 GeV) CDF m e (pT gt 2 GeV)
  • Secondary Vertex Tagging (SVX) (CDF)
  • reconstruct a displaced vertex in the jet
  • b lifetime 1.5 ps ? decay length few mm
  • use capability of Silicon vertex detectors

e(b-tag) 7/b-jet e(mistag) 0.5/jet
s(decay-length) 100 mm
b jet
e(b-tag) 20/b-jet e(mistag) 0.2/jet
secondary vertex
primary vertex
8
Search for
  • Final states are lepton (e/m) MET bs
  • Event selection
  • high pTlepton pT(lep) gt 20 GeV hlt1
  • METgt20
  • 2 jets with ET(j)gt15, hlt2
  • b-tags (single OR double jet tag)
  • Backgrounds
  • Results (CDF D?) 106 pb-1

CDF
1 b-tag
2 b-tags
mbb
from fit to di-jets mass
95 CL Limit on s?BR 26-28 pb for 90ltMHlt130
(CDF) 40-19 pb for 90ltMHlt120 (D?)
9
Search for
  • Final states is MET bs
  • Event selection (CDF)
  • METgt40 (trigger gt35) lepton veto
  • 2 or 3 jets with ET(j)gt15, ? lt2
  • DF(MET,j) gt 60 for all jets (ETgt8)
  • DF(j1,j2) lt 150
  • b-tags (single OR double)
  • Backgrounds
  • QCD and
  • Results (88 pb-1)

95 CL Limit on s?BR 8 pb for 90ltMHlt130
10
Search for
  • Final states is di-leptons bs
  • Event selection (CDF)
  • pT(lep)gt20,10 GeV
  • 76ltM(l,l)lt106 GeV
  • 2 or 3 jets with ET(j)gt15, hlt2
  • MET lt 50 GeV (against top di-lepton evts)
  • 1 b-tag
  • Backgrounds
  • Results (106 pb-1)

mbb
95 CL Limit on s?BR 56-24 pb for 90ltMHlt130
11
Search for
  • Multi-jet final state with bs
  • Event selection (CDF)
  • Multi-jets trigger
  • ? 4 jets with SETgt125 GeV ETgt15
  • double b-tag
  • pT(bb)gt50 GeV
  • Backgrounds
  • mainly QCD (bs fakes)
  • also top and Z jets
  • Results (91 pb-1)


mbb
95 CL Limit on s?BR 30-16 pb for 90ltMHlt130
? Need good Mbb resolution against background
12
Combined limit for SM Higgs
  • CDF combination of
  • 95 CL limit on

slimit 7.4-8.2 pb for mH 90-130 GeV/c2
  • x 30 SM cross-section (mH 115)
  • Limit is dominated by nnbb
  • Expected best limits from
  • nnbb and lnbb
  • poor lnbb limit due to a small excess in observed
    events
  • Need more luminosity
  • RUN II




LEP

SM
115
13
MSSM Higgs Search
  • Two Higgs doublets in the MSSM
  • 5 Higgs particles
  • two neutral CP-even h0,H0
  • One neutral CP odd A0
  • Two charged H,H-
  • two free parameters tanb and mA
  • Mass relations at tree level
  • m(h0) lt m(Z0) lt m(H0) m (A0) lt m(H0) m(H) lt
    m(W)
  • but after radiative corrections m(h0) lt ?130 GeV
  • Couplings at large tanb
  • enhanced to d-type quark and leptons
  • suppressed to u-type quark

14
MSSM Higgs production
tanb 3
tanb 30
h
H
h
H
s(pb)
s(pb)
  • Small tanb
  • SM-like cross-sections
  • Large tanb
  • enhanced hbb coupling
  • hbb/Hbb/Abb can have large cross-sections (?
    tan2b)






In general dominant Higgss Branching Ratio are
to bb (90) and tt- (10)
15
Search for
  • Exploit enhanced Yukawa couplings looking for
    bb? production (j h,HA)
  • large cross sections (? tanb2)
  • 4-bs jets final state
  • Event selection (CDF)
  • Multi-jets trigger
  • 4 jets with S(ET)gt125 GeV ETgt15
  • ET(j) cuts depending on m(j)
  • ? 3 b-tags
  • DF(bb) gt 109 (against g?bb)
  • Backgrounds
  • QCD (bb/cc), Z/Wjj, top

CDF results (91 pb-1)


16
Limit for
s?BR lt 25.7 pb
  • Limit (95CL for Mj 100 GeV)
  • convert s?BR limit in tanb vs Higgs mass
    exclusion
  • No mixing Maximal Mixing for the stop

tanb vs m(h)
tanb vs m(A)
Tevatron complements LEP !
17
Charged Higgs Searches
  • Searches for t? Hb when M(H) lt mt - mb
  • decay t? Hb can compete with SM decay t? Wb
  • BR(t? Hb) depends on tanb
  • Direct Search (CDF)
  • look for H ? tn in t-tbar evts
  • BR(H ? tn) 1 for large tanb
  • WHbb or HHbb channels in addition to WWbb
  • look for l t MET jj events (l e,m,t)
  • use t identifications via hadronic decays
    (tracking calorimeter)
  • backgrounds
  • Z ? tt jj, W?3 jets, WW/WZ
  • acceptances for single and double H? production

18
Charged Higgs Searches
  • Indirect Search (CDF D?)
  • look for lepton disappearance in t-tbar events
  • suppression of dileptons and lepton jets events
  • rate of the two depends on BR(t ? Hb)
  • t-tbar cross-section independent of m(H), tanb
  • given measured x-section (when BR(t ? Hb) 0)
  • exclusion regions in the
  • m(H)-tanb plane

D0
LEP2 (ADLO)
New Exclusion regions at low and high tanb
19
Fermiophobic Higgs
  • In some models Higgs couples only to vector
    bosons
  • BR(H ? gg) dominant for light Higgs (m(H) lt 100)
  • Searches for W/Z H ? ggjj
  • D? search
  • di-photons jets
  • Backgrounds from QCD
  • fakes or real g in jets
  • CDF search
  • di-photons with e/m MET or jj
  • Limit For SM cross-section
  • M(H) gt 80 GeV (95 CL)
  • LEP limit is 105 GeV

D0
20
Conclusions
  • SM Higgs searches are luminosity limited in Run I
  • no sensitivity to SM cross sections
  • no excess seen and set limits at 30 SM
    cross-section
  • provided experience for Run II
  • developed techniques for low mass Higgs searches
  • b tagging and di-jet mass resolution are crucial
    !
  • good expectations for Run II
  • see next talk on Run II prospects
  • Nice exclusion results for MSSM Higgs
  • bbj search with sensitivity for high tanb region
  • charged Higgs from t ? Hb
  • probed regions inaccessible to LEP
  • very interesting in Run II

report of the Tevatron Higgs Working Group
(hep-ph/0010338)
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