DPF2000, 8/9-12/00 p. 1Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Prospects for Higgs Searches at CDF in Run II DPF2000.

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DPF2000, 8/9-12/00 p. 1Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Prospects for Higgs Searches at CDF in Run II DPF2000 Columbus, Ohio August 9-12, 2000 Richard E. Hughes Department of Physics The Ohio State University Acknowledgements: Report of the Tevatron Higgs Working Group:

DPF2000, 8/9-12/00 p. 2Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF The Standard Model Higgs Data seem to prefer low mass Higgs: Is it within reach in Run II?

DPF2000, 8/9-12/00 p. 3Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Higgs Production at the Tevatron gg  H dominates over all mass ranges, but backgrounds are largest  At high masses H->WW helps WH, ZH modes provide straightforward trigger, smaller backgrounds Htt mode provides distinct signature

DPF2000, 8/9-12/00 p. 4Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Higgs Decays m(H) < 130 GeV  Most promising modes:  B-tagging, jet resolution are the key m(H) > 130 GeV  Most promising modes:  Good lepton ID, coverage are the key

DPF2000, 8/9-12/00 p. 5Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Impact of the Upgrades COT  Much better stereo, faster drift: Preserves Run I capability for Run II SVXII, ISL, Layer00  Radiation hard, 3D vs 2D, much better pattern recognition  Much better Z-vertexing  Tracking and b-tagging out to larger rapidity SVT  Identification of B hadrons at Level 2: Calibration using Muon System  Coverage nearly doubles End Plug Calorimeter  Much better Electron ID out to |  | < 2.0

DPF2000, 8/9-12/00 p. 6Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF B-tagging in Run II B-tagging at CDF in Run I  4 layer SVX  single tag eff (top events) - eff = 25% (includes geom acc ~0.5)  double tag eff (top events) - eff = 8% B-tagging at CDF in Run II  5 layer DS-SVX, ISL, Lay00  single tag eff (top events) - eff = 49%  double tag eff (top events) - eff = 25%

DPF2000, 8/9-12/00 p. 7Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Jet-Jet Mass Resolution in Run II Using more information can dramatically improve jet resolution:  Standard jet algorithm uses only calorimeter information  adding charged particle info, plus shower max detector info improves energy resolution by 30% Monte Carlo study of dijet mass resolution in Z  bb events collected via inclusive muon trigger  adding muon momentum, missing transverse energy projection along jet axis, charged fraction improves dijet mass resolution by 50%

DPF2000, 8/9-12/00 p. 8Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Jet-Jet Mass Resolution in Run II Using these corrections in Run I data:  Real Z  bb decays behave as expected  Average value and width agree with MC expectations after corrections are applied Impact on significance of a possible Higgs signal:  If the dijet mass resolution can improve to 10%, then an increase in significance of almost 50% is possible Run I Run II?

DPF2000, 8/9-12/00 p. 9Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Search Strategies Low mass Higgs: Example M(H)=120 GeV  Use Pythia MC for signal, most backgrounds. (Herwig for Wbb)  Use CDF Run I detector simulation - B-tagging should be better in Run II - Dijet mass resolution assumed to be 30% improved over Run I  Trigger criteria - High pt central e or mu; OR missing energy + B-tagged jet  Event selection - Lepton with P t > 20 GeV/c - MET > 20 GeV/c - 2 B-tagged jets (T/L) E t > 10 GeV/c - 1 tagged jet E t > 25 GeV - No additional jets with E t > 20 GeV - Veto events with 2 isolated high pt tracks - m(bb) in window GeV

DPF2000, 8/9-12/00 p. 10Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Low Mass Higgs, WH Mode Assuming M(H) = 120 GeV, and a luminosity of 20 fb -1  After all cuts: - 74 WH events remain total background events - S/  B=2.4 (about 99%CL)  Need L=10 fb -1 for 95%CL  Need L=90 fb -1 for 5  discovery Note: All event #’s shown assume L=20 fb -1

DPF2000, 8/9-12/00 p. 11Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Low Mass Higgs How do we improve things?  Add ZH, Z , modes - Expect 34 signal events 166 background events in L=20fb, S/  B=2.6  Use more aggressive analysis techniques, such as neural networks: - For WH, H  bb:  expect 61 signal events 441 background events in L=20fb, S/  B=2.9  versus 2.4 traditional cuts method

DPF2000, 8/9-12/00 p. 12Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF High mass Higgs: Example M(H)=170 GeV  Use Pythia MC for event generation, SHW detector simulation (developed by Higgs Working Group)  Focus on H  W * W *  + -  Trigger criteria - Two High pt central e or mu  Event selection - angular cuts to remove  background - Veto events with high Et jets, or B-tags - Use kinematic likelihood plus cut optimization

DPF2000, 8/9-12/00 p. 13Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF How do we improve things?  Add WH  WWW mode, all 3 W’s decay to e,  (trilepton) - Expect 0.7 events, 0.5 background in L=20fb, S/  B=1.0  Add W/ZH  jj mode (like sign dileptons + 2 jets) - Expect 7.6 events, 11.6 background in L=20fb, S/  B=2.2 High mass Higgs: Example M(H)=170 GeV H  W * W *  + - Adding W/ZH  jj,

DPF2000, 8/9-12/00 p. 14Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Higgs Combined Channel Results Determine Signal and Background for each channel Form a joint liklihood of all channels, including D0 and CDF results Integrate Likelihood to form 95%CL limit, as a function of Higgs cross section Discovery thresholds determined by ratio of maximum likelihood to likelihood at zero Higgs xsec At each mass, determine the require integrated luminosity at which 50% of future outcomes meet the desired threshold.

DPF2000, 8/9-12/00 p. 15Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Fermilab Long-Term Luminosity Goals Can we get to 20fb-1 or more? The following schedule yields ~15fb-1 by 2008

DPF2000, 8/9-12/00 p. 16Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Fermilab Short Term Schedule CDF Engineering Run Start of Run II Data Taking!

DPF2000, 8/9-12/00 p. 17Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Predicted Rates in 20fb -1 Events produced, after BR’s, assuming M(H)=120 GeV/c 2