Top physics at hadron colliders

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Presentation transcript:

Top physics at hadron colliders Luca Lista INFN Top physics

Outline Top quark properties Top quark production Top pair production Top quark decays Top mass measurement Single-top measurements Search for new physics with top Top physics Luca Lista

Top: the heaviest quark Top is by far the heaviest quark, and the heaviest particle ever observed As heavy as a Au atom! Top mass is close to the Electroweak scale Unlike all other quarks, it’s heavier than W, so it can decay into a real W: tWq Decay time faster than typical hadronization time Top decays before it can hadronize, so it’s a unique opportunity to study “bare” quark properties Top physics Luca Lista

Top history timeline 1977 – b-quark discovered at FNAL, top quark hypothesizes as weak isospin partner and 6th quark to complete the three SM generations Direct search in e+e− colliders, increasing limits on the top mass ~1990– indirect estimate of quark mass from precision EWK measurements (LEP) 1995 – discovered at FNAL by CDF and D0 in direct top-pair production Top physics Luca Lista

Indirect top quark evidence Precision measurements of the Elecroweak parameters, mainly from LEP, allowed to measure virtual corrections with sufficient precision to put constraints on the top-quark mass Δr ~ mt2, ln(mH) 1 GeV change on mt ⇒ ~10 GeV change on mH Top physics Luca Lista

Top mass history Limits or estimate vs time indirect EWK data CDF D0 World average Limits from Tevatron Limits from SppS Limits from e+e− Top physics Luca Lista

Top quark production Luca Lista Top physics

Top quark pair production Top physics Luca Lista

LHC kinematics Smaller x implies larger gluon contribution 2mt ~ 0.19 at Tevatron ~ 0.025 at LHC (14 TeV) Top physics Luca Lista

Tevatron vs LHC Gluon fusion dominates at LHC, while qqbar annihilation dominates at Tevatron Expectation: Tevatron: 10 ttbar/day, LHC: 1 ttbar/s Single-top: 4/day vs 0.5/s LHC is effectively a top factory top pair production Top physics Luca Lista

Single-top production Single top quark production is possible via the mediation of a W Three possible processes: t, s channels, tW Top physics Luca Lista

Top quark decay Luca Lista Top physics

Top quark decays Main top decay: t→Wb (|Vtb|~1) Top lifetime is ~ 0.5×10−24s, smaller than typical hadronization time (1/ΛQCD ~ 3×10−24s) Top decays too quickly to produce top hadrons, so no top spectroscopy is possible Vtq Top physics Luca Lista

Final states in top events The signature of top events is dictated by the decay mode of the W boson in t→Wb Possible decay modes: Dileptons (e, μ): ~5% Leptons + jets: ~30% All hadronic: ~45% Two b-jets at leas are present in the event Neutrinos are present when the W decays leptonically Non-b jets are present in W hadronic decays Top physics Luca Lista

Top quark identification and reconstruction Luca Lista Top physics

Experimental physics ‘objects’ Top events can be recognized and discriminated from the background using several detector information Lepton identification Hadronic jet reconstruction Identification of b-jets (b tagging) Reconstruction of neutrinos as missing energy in the transverse plane only at hadron colliders Further background reduction can be achieved using kinematic variables, depending on the specific channel Top physics Luca Lista

LHC experiments: ATLAS Top physics Luca Lista

LHC experiments: CMS Top physics Luca Lista

A top-antitop candidate event Top physics Luca Lista

One more candidate (eμ+2 jets) Top physics Luca Lista

Identifying the b jet: “tagging” Different algorithms are used to determine whether a jet is produced from a b-quark fragmentation b mesons/barions have long lifetimes τ~1.5ps, cτ ~ 450μm, l~1.8mm at p=20 GeV/c Impact parameter reconstruction can detect long-lived tracks Semileptonic branching ratio is larger than non-b jets ~11%, ~20% including cascade decays Harder b frabmentation Some difference in kinematics Larger pT of tracks w.r.t. the jet direction Different information can be combined into a single tagger algorithm Top physics Luca Lista

ttbar cross section Luca Lista Top physics

ttbar cross section measurement Typical event selection for lepton + jets Top physics Luca Lista

l+jet: jet multiplicity (untagged) Likelihood discriminator based on four discriminating variables ATLAS-CONF-2011-121 Likelihood discriminant based on kinematical quantities Top physics Luca Lista

Lepton + jets with b-tag b-tag = displaced secondary vertex CMS PAS TOP-11-003 Top physics Luca Lista

Cross section summary (2010…) 2010 data (no 2011 combination available yet!) Top physics Luca Lista

Top mass measurement Luca Lista Top physics

Top event reconstruction (l+jets) More permutations in all-hadronic mode Two neutrinos in dileptonic mode Top physics Luca Lista

Reconstruct the top mass Top physics Luca Lista

Constrained fit for mt Mass resolution improves if kinematical constraints are applied Chi-squared minimization problem Gaussian approximation for Breit-Wigner shapes Top physics Luca Lista

Template method CDF Conf. Note 10456 Generate mt-dependent observable (e.g.: reconstructed top mass) Generate template distributions at different mt (Monte Carlo) Fit the templates to data and determine mt CDF, 5.8 fb−1 CDF simulation Fit Simultaneous determination of Jet Energy Scale and mt from the same sample improves overall resolution Top physics Luca Lista

Template method: ATLAS Similar method, different discriminating variable to reduce systematic uncertainties Top physics Luca Lista

Matrix element method Compute the event probability density as: where: Determine sample likelihood Fit mt, kjes Top physics Luca Lista

Application in CDF CDF/PHYS/TOP/PUBLIC/10191 Signal and background classified using a neural network discriminator mt = 173.0 ± 0.7 (stat.) ± 0.6 (JES) ± 0.9 (syst.) GeV = 173.0 ± 1.2 (total) GeV Top physics Luca Lista

Ideogram method Some similarities with Matrix Element method: per-event probability, overall data sample likelihood Top mass per event extracted from a kinematic constrained fit Resolution and mt shape included in the model Probability of wrong assignment taken into account Top physics Luca Lista

Mass from cross section Renormalization scheme subtlety: pole mass or MS mass… The smallest uncertainty in σ does not imply smallest uncertainty on mt Top physics Luca Lista

Summary of mt measurements Tevatron precision still dominates Top physics Luca Lista

Single top Luca Lista Top physics

associated Wt production Single top production t-channel associated Wt production s-channel Top physics Luca Lista

Interest in single-top Test of the SM prediction. Does it exist? ✔ Establish different channels separately Cross section  |Vtb|2 Test unitarity of the CKM matrix, .e.g. Hints for existence of a 4th generation ? Test of b-quark PDF Search for non-SM phenomena Search W’ or H+ (Wt or s-chan. signature) Search for FCNC, e.g. ug  t … Single top as an experimental benchmark Object identification: lepton fake rates, QCD background estimates, b-quark jet identification, … Redo measurements of top properties in different environment, for example, mt, W polarization in top decay, … Top physics Luca Lista

Single top at Tevatron Sum of s and t channel cross sections measured Hard to assess experimental significance, analysis heavily relying on multivariate techniques PRL 103 092002 arXiv:0908.2171v1 Claim: 5.9 standard deviations significance, |Vtb| = 0.91 ± 0.11(exp.) ± 0.07(th.) Top physics Luca Lista

t-channel single top at LHC Largest cross section of single-top processes Improved S/B ratio (10%) compared to Tevatron (7%) E.g.: CMS selection Data sets defined by single lepton (e / μ) or lepton + jet triggers Charged lepton selection (electron / muon): pT (m) > 20 GeV, ET(e) > 30 GeV |η(e)| < 2.5, |η(μ)| < 2.1 Relative isolation Jet selection 2 jets, b tagging/veto Select only events with leptonic W decays, to suppress QCD-multijets background. Some acceptance due to W →τν decays. QCD multijet veto MT(W) > 50 GeV Top physics Luca Lista

Background estimate from data CMS: fit MT (W) QCD veto cut Top physics Luca Lista

Signal extraction Complementary approaches adopted: Phys. Rev. Lett. 107 (2011) 091802 ATLAS-CONF-2011-101 CMS PAS TOP-11-021 Complementary approaches adopted: Maximum likelihood method (cosθ*, |ηlq|) Multivariate analysis (Boosted Decision Trees, NN) CMS (36pb−1) ATLAS (0.7fb−1) : Top physics Luca Lista

Tevatron vs LHC Limits set on tW, s channel still out of reach with 2011 data Top physics Luca Lista

More single top channels tW recent evidence by ATLAS (arXiv:1205.5764, 2 fb−1) σtW = 16.8±2.9(stat) ±4.9(syst)pb (3.4σ signif.) SM: σtW = 15.6pb s-channel: limit presented by ATLAS (ATLAS-CONF-2011-027, 35pb−1, cut-based): σs-ch. < 26.5pb (95% CL) But in SM σs-ch. = 4.6pb! Top physics Luca Lista

More top properties Luca Lista Top physics

Spin correlation at CDF top and anti-top are produced with their spins correlated and decay as bare quarks before losing their spin polarizations SM prediction: κ ~ 0.8 No conclusive result (κ = 0?) CDF Conf. Note 10719 Top physics Luca Lista

Top pair spin correlation Top pairs produced mainly via gluon fusion (LHC) or quark-antiquark annihilation (Tevatron) V-A structure of top decay fSM = A/ASM=1.06 ± 0.21(stat.)+40−27(syst.) ATLAS-CONF-2011-117 Top physics Luca Lista

Charge asymmetry Small FB asymmetry predicted by theory Could be larger with new particles Note: different initial state in Tevatron and LHC! AFB = 0.24 ± 0.13 (stat.) ± 0.04 (syst.); AFB(theo)=0.050± 0.015 PRL 101 202001 Top physics Luca Lista

Charge asymmetry at LHC CMS PAS TOP-11-014 LHC has a symmetric initial state Charge asymmetry measured at Tevatron turns into an angular asymmetry Top physics Luca Lista

New physics in top processes Top processes are suitable to study exotic physics Top physics Luca Lista

Search for tt resonances CMS measured the ttbar invariant mass spectrum in (μνb)(qqb) decays CMS PAS EXO-11-055 Top physics Luca Lista

Search for new particles ATLAS: Search for New Phenomena in ttbar Events with Large Missing Transverse Momentum in Proton-Proton Collisions at sqrt(s) = 7 TeV with the ATLAS Detector arXiv:1109.4725 Top physics Luca Lista

Top quark charge Some models predict an exotic −4/3 particle, the true SM top (q=+2/3) quark being heavier and undetected b flavour has to be identified (b or bbar), Jet charge or lepton tag Experimental data disfavor exotic −4/3 quark Phys. Rev. Lett. 98, 041801 (2007), Conf. Note 9939, … Top physics Luca Lista

References S. Willenbrock, the Standard Model and the top quark, hep-ph/0211067 A. Quadt, Top quark Physics at hadron colliders, Eur. Phys. J. C 48 (2006) 835-1000 F. Deliot, D. Glenzinski, Top Quark Physics at the Tevatron, arXiv:1010.1202 Top physics Luca Lista