Probing the Top Mass from Leptons only: Preliminary Results

1. Probing the Top Mass from Leptons only:Preliminary Results HEP2006 – April 13th , Ioannina Victoria Giakoumopoulou

2. Signal • Lepton+jets • 1 lepton • Dilepton • 2 leptons

3. Sources of Background • Lepton+jets • W+jets • Fakes • Dilepton • Diboson WW/WZ • Zτ+τ- • Drell-Yan • Fakes

4. Dilepton Channel 2 leptons of opposite sign, with PT>20GeV at least 2 jets with |η|≤2.5 and ET≥15GeV Zveto for events in 76<Mll<106 GeV window MET>25GeV L-cut: MET>50GeV if Δφ(MET, lep or jet<200) H>200GeV Event Selection • Lepton+Jets Channel • 1 lepton with PT>20GeV • 4 jets with |η|≤2.5 and ET≥15GeV • MET>20GeV • H>200GeV (Sum of the Transverse Energy)

5. Lepton+Jets: PT for Signal & BackgroundThe Fit

6. Dilepton: PT for Signal The Fit

7. Lepton+jets: Maximum LikelihoodMC @1fb-1 Min=175 Gev/c2  signal and background fit to PT  background fit to PT 206 Signal events of MTOP=175GeV/c + 296 Background events

8. Lepton+jets: Linearity check 8 PseudoExperiments Mout=p0+p1Min

9. Dilepton : Maximum LikelihoodMC @1fb-1 - Only signal Min=175 Gev/c2 50 Signal events of MTOP=175GeV/c

10. Dilepton: Linearity check 25 PseudoExperiments Only Signal

11. Lepton+jets: Statistical Error

12. Lepton+jets: Statistical Error @Tevatron/LHC

13. Systematic Uncertainties • ISR/FSR • PDF • Background • Shape • Normalization < 0.5 GeV • Generator

14. Summary • Top Mass method using Leptons looks promising • Statistical Error • ±7 GeV by the end of RUNII (Tevatron) • <1 GeV by the end of second year (LHC) • Systematics • No jet energy scale • No b-jet energy • A small systematic error is expected (under study)

15. BACKUP

16. Outline • Top-antitop production and decay • Event selection • Preliminary results • PT spectrum • Fitting PT • Finding Top Mass with Maximum Likelihood Method • Statistical and Systematic errors

17. e-e(1/81) mu-mu (1/81) tau-tau (1/81) e -mu (2/81) e -tau(2/81) mu-tau (2/81) e+jets (12/81) mu+jets(12/81) tau+jets(12/81) jets (36/81) Top Pair Production & Decay • W decays define channel: • Dilepton: 11.12% • Lepton+jets: 44.44% • All-hadronic: 44.44%

18. PROTON g JET g q q g JET JET ¢ q q w ANTIPROTON W+jets background

19. l p p q τ- γ*, Ζ* q p p gluon p p p p τ+ gluon jet jet Drell-Yan & Zτ+τ- backgrounds

20. Methodology Outline Estimation of the Top Mass using the Lepton PT information • Lepton PT templates for the signal • PT is linearly dependent to the Top Mass • Herwig samples with Mtop=140-220GeV • Lepton PT templates for backgrounds • Fit the PT templates with Gamma x Fermi function • Implement Maximum Likelihood method to estimate the Top Mass

21. Lepton+Jets: PT for Signal & Background

22. Dilepton: PT for Signal & Background

23. Fit Function • Parameterization of Pt where c=20GeV and b=0.1GeV • Fitting 21 PT histograms for Mtop = 140-220 GeV • Find the optimum mass dependent parameters p and q • Fitting combined background • Find the optimum parameters p and q

24. Likelihood • N: number of data events • nbexp: expected number of background events • σnb: expected background uncertainty • ns: number of estimated signal events • nb: number of estimated background events

25. Measurements of the Top Mass hep-ex/0507091

26. Event Selection

27. Systematics from other Template methods

28. Mass from other Template Methods