Physics simulation Status and plan for 2007

1. HIP meeting, 20 Mars, 2007 Physics simulationStatus and plan for 2007 R. Kinnunen, S. Lehti, L. Wendland Helsinki Institute of Physics R. Kinnunen Helsinki Institute of Physics

2. Contents • - Analysis of the H± -> tn, t -> hadrons+n in fully hadronic channel from gg -> tbH± for 1 fb-1 • Status of the work and plan for 2007 • - Search for the Higgs bosons in the SUSY cascades with • non-universal boundary conditions at the unification scale • with K. Huitu, J. Laamanen and Tapio Salminen • Other projects: • - t tagging package with impact parameter for CMSSW • by Sami • - Data transfer and computing in Helsinki (Sami) • - H/A->tt-> 2 jets, PhD work by Lauri • - Finalization of CMS note on qqH, H->mm • in collaboration with Chandigarh group, presentation in Physics meeting R. Kinnunen Helsinki Institute of Physics

3. Analysis of H± -> tn, t -> hadrons+n for1 fb-1 Main results from the full simulation study for PTDR2 CMS NOTE 2006/100 Signal visible as a tiny peak at large transverse masses Extreme phase space corner selected -> large sensitivity to accidendal reconstruction problems R. Kinnunen Helsinki Institute of Physics

4. Background in the full simulation study Backgrounds from genuine t’s in tt and W+3 jets were found to be well under control: t jet and large ETmiss (> 100 GeV) well measured Background from fake t’s was observed in the signal area mT> 100 GeV: - can originate from fluctuations in jet fragmentation - was found to be mainly due to fake tracks in the signal cone after the tracker isolation The fake t background was efficiently reduced with strong track quality cuts IPT < 0.3 mm and at least 10 hits R. Kinnunen Helsinki Institute of Physics

5. TOB TOB TIB TIB PXL PXL MC truth Reconstructed Further reduction of QCD-multijet bkg? (Lauri) Signature: - one high pT track - contains hits from different MC tracks - non-zero IP • Problem:- QCD-multijet events contain several tracks in a jet, but sometimes only one is reconstructed  what if the other tracks could be recovered? • Method:- If only one track is reconstructed, redo track fitting from outside in KalmanFilter search window would be smaller and more accurate in pixels higher probability to reconstruct correct pixel hits track pT expected to become softer; some lost tracks expected to be recovered reduction achieved with a pT and n_tracks cut • Application:- both H±->tau nu->(hadr.) and H,A->2tau->(hadr.) Gap between PXL and TIBmost critical region R. Kinnunen Helsinki Institute of Physics

6. Background measurement from data For measurements of backgrounds with real t’s from W+3 jets and tt backgrounds the precise muon measurement in W->mnand the lepton universality in the W decaycan be exploited Event selection: 1. Events from Single muon trigger 2. Off-line selection: - pTm > 100 GeV - ETmiss > 100 GeV - 3 jets, ET > 20 GeV - no b jets, suppression of tt Simulation: Generate tt and W+3jet events with W->mu R. Kinnunen Helsinki Institute of Physics

7. The W+3jets, W->tn background can be estimated through: N(W+3jets) = (N(m sel.) – N(tt cont.)) * (et/em) * (1-eb-antitag) / (eb-antitag)3 • et : to be estimated from MC • t’s with large pT could be obtained from W+jet, W->tn but QCD • suppression will be difficult • - eb-antitag : can be measured from g+jet events, if fraction of g+b events • is below 1% • top reconstruction: to be checked if affects the shape of the • mT(t jet, ETmiss)distribution Estimate of the statistics for the muonic selection with the ALPGEN production samples for W+3jet (722 pb) and W+4jets (174 pb): pTm > 100 GeV 16.27 pb MET(from particles) > 100 GeV 1.28 pb 3 jets, ET > 20 GeV 1.05 pb (29% W+4jets) R. Kinnunen Helsinki Institute of Physics

8. Measurement of tt, W->tn background exploiting muons Event selection for a sample dominated with tt events: - Single muon trigger - pTm > 100 GeV - ETmiss > 100 GeV - 3 jets, ET > 20 GeV - 2 b jets, suppression of W+3jet events The tt, W->tn background can be estimated through: N(tt) = (N(m sel.) – N(W+3jet cont.)) * (et/em) * eb-tag / (eb-tag)2 eb-tag : to be measured in b enriched tt events with the precision of 6% for barrel 10 % for end-caps for 1 fb-1,S. Lowette et al., CMS NOTE 2006/013 R. Kinnunen Helsinki Institute of Physics

9. Another possibility for tt, W->tn background • A signal free region dominated with tt could be obtained exploiting the • difference in t helicity correlations • Event selection: • single t + MET trigger • ETt-jet > 100 GeV, ETmiss > 100 GeV • 3 jets • 2 b jets, suppression of W+3jets • Rt = pleading track/ Et <~ 0.3 Contributions at low pleadingtrack/Etjet not visible due to trigger selection R. Kinnunen Helsinki Institute of Physics

10. Suppression of QCD jets: only 1-prong and a cut in Df(t jet, ETmiss) Study of the QCD contribution as a function of Df needed tt events Narrow distribution for QCD jets The tt, W->tn background can be estimated through: N(tt) = (N(observed) – N(W+3jet cont.)) * e(Rt > 0.8)/e(Rt < 0.3)* eb-tab/(eb-tag)2 Suppression of QCD multi-jets with the Df cut may lead to low statistics ! R. Kinnunen Helsinki Institute of Physics

11. Background from fake t’s originating from fluctuationsin jet fragmentation • Use g + jet events as proposed in CMS NOTE-2006/028 • - 104 events expected for a bin of 0.1xET for 1 fb-1 • apply t identification on the jet • estimate probability for a jet to fake the t as a function of • photon ET R. Kinnunen Helsinki Institute of Physics

12. Event selection methods and cut optimization for 1 fb-1 • Study of the fake tracks for pTtrack > 80 GeV,need the QCD samples • Particle flow method for t jet energy measurement • Expect improvement in Rt = pleading track/ Et • Work in progress • Include the electron background from W+3jets and tt, W->en, • with electron faking the hadronic t signal, and the bWt background • Re-optimization of jet assignment and top mass reconstruction • Re-optimization of central jet veto for tt suppression: possibly remove, • signal efficiency 35-50% in the PDTR study • Include 3-prong t’s with the new algorithm of D.P. Roy et al. • Monoranjan Guchait (TIFR) joins the project R. Kinnunen Helsinki Institute of Physics

13. Search for the Higgs bosons in the SUSY events with non-universal boundary conditions at the unification scale with K. Huitu and J. Laamanen and Tapio Salminen • h/A/H-> bb decay channel selected in the SUSY cascades with c02 ->h/A/H c01 • Expect events with many hard jets, large missing ETand 2 b jets from Higgs decay, combinatorial background reduced with a hemisphere separation method • Event generation with PYTHIA and simulation with FAMOS 24-dimensional Representation; H/A can be produced mA = 190 GeV, tanb = 10 Singlet Representation; only h can be produced mA = 190 GeV, tanb = 10 Try to extract the background with fits R. Kinnunen Helsinki Institute of Physics

14. Back-up slides R. Kinnunen Helsinki Institute of Physics

15. Production processes Production through two processes: gb -> tH±andgg(qq) -> tbH± gb -> tH± is often considered as the LO process and gg(qq) -> tbH± as a part of the NLO correction to gb -> tH± More energetic b jet from gg(qq) -> tbH± Choise of the production process affects the top mass reconstruction and jet veto Keep the event generation with gg(qq) -> tbH± with the present (LO) generators, gg(qq) -> tbH± can be also considered as the LO process J. Alwal R. Kinnunen Helsinki Institute of Physics

16. Exploiting helicity correlations in 3-prong t decays The 1-prong t selection with pleadingtrack/Etjet > 0.8 suppresses the 3-prong tdecays from 15% to 3% in the full simulation of the gg -> tbH±, H± -> tnchannel • New idea1) of exploiting more efficiently the 3-prong tdecays • based on the decay mode without any accompanying p0’s: t-> p±p± p± n2/3rd the 3-prong decays (10% of total) This mode can be selected with matching of tracker momentum and calorimeter signals or by a veto on accompanying p0->2g in ECAL • The a1L contribution can be enhanced with a cut in the t momentum • fraction carried by the like-sign pair • R3 < 0.4 or R3 > 0.8, R3 = pp±p±/pt-jet 1) M. Guchait, R. Kinnunen, D.P. Roy, hep-ph/0608324. R. Kinnunen Helsinki Institute of Physics

17. New selection for 3-prong t decays, hep-ph/0608324 Selection oft->p±p±p±nwith DE = |Etrktot - Ecaltot|<10 GeV ~ calorimeter resolution For R3p < 0.4 the event is triggered at HLT with the 3th opposite sign pion, pT(3th opposite sign p) > 60 GeV for R3p < 0.4 ! R. Kinnunen Helsinki Institute of Physics

18. Exploiting helicity correlations in 3-prong t decays Study for the gb -> tH±, H± -> tn channel l Event generation with PYTHIA, t decays with TAUOLA l Background from tt events l Fast simulation of CMS detector, jet and missing ET reconstruction l No trigger simulation R3 = pp±p±/pt-jetdistributions for t-> 3p± with ETtjet > 100 GeV R. Kinnunen Helsinki Institute of Physics

19. Transverse mass reconstruction mT = (2 ETt jet ETmiss (1 - Df(t jet, ETmiss))1/2 Transverse mass distributions for the signal and background with all selection cuts with pTHiggs > 50 GeV • ~1.4 tt events at large mT, with good missing ET measurement and passing track qualitycuts, • are events triggered with a hadronic jet (fake t signal) • can be suppressed requiring strong correlation for the t jet and missing ET • with pTHiggs > 50 GeV (signal efficiencies > 84% ) R. Kinnunen Helsinki Institute of Physics