A. Martyniuk a, P. Miyagawa b, M. Owen c, O. Trifis c, V. Chavda c, and U.K. Yang c a: University of Victoria b: University of Sheffield c: University of Manchester Higgs Meeting, August 27, Thanks to the Editorial Board: Michel Vetterli (Chair) Martin zur Nedden, Wouter Verkerke, James Ferrando
A charged Higgs boson is predicted by the Beyond SM: Two Higgs Doublet Model: H 0, h 0, A 0, H ± Charged Higgs productions from top quark decays H + cs Huge top production, focus on H + cs at low tan H + Complementary to H + at high tan 2 ν W+W+ W/H - b-jet jet e/
Dijet mass 2 fitter Semi-leptonic tt sample 3 ν W+W+ W/H - b-jet jet e/ Likelihood Fit, Br(t H + b): Discovery or 95% Limits
Previous analysis with 35 pb -1 data (≥ 1 b-tag), comparable to the Tevatron limits ( ATL-CONF , ATL-COM-PHYS ) Updated analysis with 4.7 pb -1 (2011 full data) High-pt lepton with 4 jets (at least 2 b-tag) Single lepton trigger samples Use the Top group selection cuts and have a good agreement Lep Pt>25 (e), 20 (m), Jet Pt>25, MET> 35(e), 20(m), MV1 w>0.6 The list of the full event selections cuts is in the backup slide Supporting document ATL-COM-PHYS The updated analysis has a conditional approval in June, 2012 Issues with systematic Issues with fit stability 4
A dijet mass 2 fitter: lepton plus 4 jets Improved the dijet mass dist. by reconstructing whole ttbar event Constrain W(e/m) and top quarks masses to be the PDG values, by floating jet/lepton energy within their resolutions The 5 th jet can be replaced as a W daughter jets with any of the two untagged 3 rd, 4 th jets Remove poorly reconstructed events with 2 <10 5 Before FittingAfter Fitting
Signals and background templates Seven H+ signal templates from 90 to 150 GeV by 10 GeV step SM ttbar template Non-ttbar template (10%): Single top, W/Z+jets, QCD, and diboson
Set limits on the branching ratio to charged Higgs boson using the frequentic procedure A likelihood function is define as where n i : observed events, i : expected events in each bin Limits are calculated on a test Statistics qb based on a profile Likelihood ratio 7 The exp. events of ttbar bkg and H + signal as BR(t H+b)
Missing contributions in the limits b-JES/c-JES syst. Mtop syst. Updated Stop t-ch. norm Implementation of the syst. band in the kinematic distributions Check the output nuisance parameters and their correlations (N-1) limits to show the syst. effect of each item Limits without a constraint on the (ttbar) 8 Limits presented in the approval meeting in June Raised in the Higgs Approval meeting and by the Edboard
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Missing syst. contributions (b-/c-JES, Mtop, proper Stop t-ch. norm.) are included. Their contributions are small (done) After ICHEP deadline passed, we decided to update our analysis Use the most updated JES calibration and it’s uncertainty ( tag ): lower eff. for Njet>=4 cut Use the updated luminosity with small error: 4.66 /fb with 1.8% (old: 4.71/fb with 3.4%) no change in the data, but the bkgd prediction based on the MC is reduced by 1.2% 10 Implementation of the syst. band the kinematic distributions (done) Check the output nuisance parameters and their correlations (done) Limits without a constraint on the (ttbar) (done) (N-1) limits to show the syst. effect of each item (done)
11 old new data SMttbar old new
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The fit results are consistent with null Higgs hypothesis 14 Stat. Only
15 mH=90 GeV mH=110 GeV
The effect of the individual syst.? The only one syst. Item is removed in the fit, “(N-1)” limit Basically, the (N-1) limits are close to the N limits due to the correlations with other parameters 16
17 Groups of the correlated systematic JES, Mtop, bJES: c bTag, (ttbar) Gen, I/FSR, PS and JER mH=90 GeV
18 A group of the correlated parameters (x) is removed in the fit to check the effect of their syst. on the limits The (N-x) limits look reasonable
In the current fit, (ttbar) is constrained with +7%/-9% uncertainties What if we remove this constraint? basically 2 parameter fitting: Br(t H+b) and (ttbar) The limits are not changed The resulting cross sections are consistent with the SM 19
The full 2011 data (4.7 fb -1 ) have been analyzed to search for a charged Higgs from top quark decays. The results are consistent with null Higgs hypothesis The 95% limits on Br(t H + b) are set between 5% to 1%, depending m H are improved by a factor of 5 to 10, with respect to the current best limits in csbar channel The limits, equivalent to the limits from the three combined tau channels. We plan to publish these results 20
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Semi-leptonic channel: e/ plus at least 4 jets (2 b-tag) Use the Top group selection cuts and have full agreement: acceptance challenge Cuts are: One el with E T > 25 GeV & |η| 20 GeV and |η| < 2.5 with single lepton triggers (EF_e20_medium,EF_e22_medium, EF_mu18, EF_mu18_medium) Remove events tagged as e-mu overlap Require a primary vertex with at least five tracks MET > 35 GeV (el), OR MET > 20 GeV (mu) M t (W) > 25 GeV (el) OR MET + M t (W) > 60 GeV (mu) ≥ 4 jets with E T > 25 GeV and |η| 0.75 Events with loose bad jets with p T > 20 GeV are rejected ≥ 2 jet tagged with MV1 weight >
SM ttbar (~90% of the total bkgd) Use sample for shape and normalization with NNLO cross section W+jets, Wbb/cc+jets, Wc+jets (~3.6% of the total bkgd) Use ALPGEN interfaced with Herwig samples for shape and normalization Normalized with K*cross sections plus the SFs derived from the Top W+jets group based on the W+/W- charge asymmetry in the data Single top (~3.7% of the total bkgd) Use sample for Wt and s-channel, but AcerMC for t-channel normalized with NNLO cross section (also shape) Multi-jets (~2.5% of the total bkgd) Use anti-electron data-driven method provided by the Top fake group (normalization) 23
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Powheg plus Herwig vs Pythia? With Pythia AMTB1 tune: 11% difference in acceptance, disfavored by the jet shape data. New PS syt. with Pythia Perugia 2011 C tune:3% difference in acceptance The effect due to the PS on the limit is very minimal. Pythia AMBT1 tune Pythia Perugia 2011 C tune