Uncertainties on top quark mass due to modeling

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Presentation transcript:

Uncertainties on top quark mass due to modeling For DØ collaboration Regina Demina University of Rochester Top mass workshop at FNAL, 10/11/05

Regina Demina, Top mass workshop at FNAL Mt=169.5±4.4 GeV/c2 JES=1.034±0.034 calibrated calibrated DØ RunII Preliminary expected: 36.4% 10/11/05 Regina Demina, Top mass workshop at FNAL

Regina Demina, Top mass workshop at FNAL Systematics summary Source of uncertainty DMt (GeV/c2) B-jet energy scale +1.32-1.25 Signal modeling (gluons rad) 0.34 Background modeling 0.32 Signal fraction +0.5-0.17 QCD contribution 0.67 MC calibration 0.38 trigger 0.08 PDF’s 0.07 Total +1.7-1.6 10/11/05 Regina Demina, Top mass workshop at FNAL

Regina Demina, Top mass workshop at FNAL B-jet energy scale Relative data/MC b/light jet energy scale ratio fragmentation: +-0.71 GeV/c2  different amounts of p0, different p+ momentum spectrum  fragmentation uncertainties lead to uncertainty in b/light JES ratio compare MC samples with different fragmentation models: Peterson fragmentation with eb=0.00191 Bowler fragmentation with rt=0.69 calorimeter response: +0.85 -0.75 GeV/c2 uncertainties in the h/e response ratio + charged hadron energy fraction of b jets > that of light jets  corresponding uncertainty in the b/light JES ratio Difference in pT spectrum of b-jets and jets from W-decay: 0.7 GeV/c2 10/11/05 Regina Demina, Top mass workshop at FNAL

B and light quark jet kinematics On average b-jets contain 2 more soft pions Pion momenta are softer for b-jets 10/11/05 Regina Demina, Top mass workshop at FNAL

Charged hadron energy fraction For jets with pT>20GeV/c Light-quark jet: <Fcharged >=0.58 b-quark jet: <Fcharged >=0.52 10/11/05 Regina Demina, Top mass workshop at FNAL

Regina Demina, Top mass workshop at FNAL Single pion response 10/11/05 Regina Demina, Top mass workshop at FNAL

Regina Demina, Top mass workshop at FNAL 10/11/05 Regina Demina, Top mass workshop at FNAL

Regina Demina, Top mass workshop at FNAL Gluon radiation The effect is reduced by Requiring four and only four jets in the final state High PT cut on jets Yet in ~20% of the events there is at least one jet that is not matched (DR(parton-jet)<0.5) to top decay products These events are interpreted as background by ME method We study this systematic by examining ALPGEN ttj sample and varying its relative fraction between 0 and 30% (verified on our data by examining the fraction of events with the 5th jet) Final effect on top mass 0.34 GeV/c2 10/11/05 Regina Demina, Top mass workshop at FNAL

Regina Demina, Top mass workshop at FNAL Njets tt1j tt0j <Nj>=3.7 <Nj>=3.3 tt2j Each process can produce a spectrum of jet multiplicities How do we combine tt0j,tt1j,tt2j? <Nj>=4.1 10/11/05 Regina Demina, Top mass workshop at FNAL

Approach #1: weighted sum Add processes straight up, weighted by cross section*selection efficiency: Add contributions of tt0j, tt1j, tt2j Double counting because tt0j includes radiation by Pythia tt0j tt1j tt2j eff, % 13.9% 19.5% 23.3% sigma, pb 6 2.5 0.56 sigma*eff 0.834 0.4875 0.13048 relative weight 57% 34% 9% 10/11/05 Regina Demina, Top mass workshop at FNAL

Approach #2: trust Pythia If Pythia includes radiation why not just trust Pythia? tt1j <Et>=44GeV tt0j, extra jet produced by Pythia <Et>=35GeV Pythia “radiation on-off” approach underestimates systematics! tt2j <Et>=46GeV 400 GeV 10/11/05 Regina Demina, Top mass workshop at FNAL

Kinematics of the x-tra jets: data to Alpgen+Pythia tt Look at ET, h, DR(b-5th jet), DR(jet from W-5th jet) 10/11/05 Regina Demina, Top mass workshop at FNAL

Approach #3: exclusive production tt0j for W+4jet bin, tt1j for W+5j, tt2j for W+6j 10/11/05 Regina Demina, Top mass workshop at FNAL

Verification with data Can constraint the fraction of ttj by measuring the fraction of F=N(Nj>=5)/N(Nj>=4) In systematics study we vary between pure tt and weighted sum 10/11/05 Regina Demina, Top mass workshop at FNAL

Signal/Background Modeling QCD background: +-0.67 GeV/c2 Rederive calibration including QCD events from data (lepton anti-isolation) (note: sample statistics limited) can be reduced in the future W+jets modeling: +-0.32 GeV/c2 study effect of a different factorization scale for W+jets events (<pT,j>2 instead of mW2 + SpT,j2) PDF uncertainty: +-0.07 GeV/c2 CTEQ6M provides systematic variations of the PDFs reweight ensembles to compare CTEQ6M with its systematic variations (by default the measurement uses CTEQ5L throughout: use a LO matrix element, and for consistency with simulation) 10/11/05 Regina Demina, Top mass workshop at FNAL

Regina Demina, Top mass workshop at FNAL Conclusions Model dependent systematics on top mass include Difference in b and light JES Fragmentation Charged fraction Gluon radiation (x-tra jet modeling) Factorization scale of W+jets production PDF’s 10/11/05 Regina Demina, Top mass workshop at FNAL