Abstract

A search is presented for the pair production of heavy vector-like T quarks, primarily targeting the T quark decays to a W boson and a b-quark. The search is based on 36.1 fb−1 of pp collisions at sqrt{s}=13 TeV recorded in 2015 and 2016 with the ATLAS detector at the CERN Large Hadron Collider. Data are analysed in the lepton-plus-jets final state, including at least one b-tagged jet and a large-radius jet identified as originating from the hadronic decay of a high-momentum W boson. No significant deviation from the Standard Model expectation is observed in the reconstructed T mass distribution. The observed 95% confidence level lower limit on the T mass are 1350 GeV assuming 100% branching ratio to Wb. In the SU(2) singlet scenario, the lower mass limit is 1170 GeV. This search is also sensitive to a heavy vector-like B quark decaying to Wt and other final states. The results are thus reinterpreted to provide a 95% confidence level lower limit on the B quark mass at 1250 GeV assuming 100% branching ratio to Wt; in the SU(2) singlet scenario, the limit is 1080 GeV. Mass limits on both T and B production are also set as a function of the decay branching ratios. The 100% branching ratio limits are found to be applicable to heavy vector-like Y and X production that decay to Wb and Wt, respectively.

Highlights

  • A search is presented for the pair production of heavy vector-like T quarks, primarily targeting the T quark decays to a W boson and a b-quark

  • Multiple overlaid proton-proton collisions in the same or nearby bunch crossings were simulated at rates matching that of the data; they were modelled as low pT multi-jet production using the Pythia 8.186 generator and tune A2 [51]

  • The distribution of the reconstructed mass of the leptonically decaying T quark candidate, mlTep, in the signal and control regions is used to test for the presence of a signal

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Summary

ATLAS detector

The ATLAS detector [20] at the LHC is a multipurpose particle detector with a forwardbackward symmetric cylindrical geometry that covers nearly the entire solid angle around the collision point. It consists of an inner detector surrounded by a thin superconducting solenoid providing a 2 T axial magnetic field, electromagnetic and hadronic calorimeters, and a muon spectrometer. The inner detector covers the pseudorapidity range2 |η| < 2.5. Lead/liquid-argon sampling calorimeters provide electromagnetic energy measurements with high granularity and a hadronic (steel/scintillator-tile) calorimeter covers the central pseudorapidity range (|η| < 1.7). The ATLAS detector has a two-level trigger system to select events for offline analysis [23]

Data and simulation
Analysis object selection
Analysis strategy
Event preselection
T Treconstruction
Classification of event topologies
Signal region definition
Control region definition
Multi-jet background estimation
Systematic uncertainties
Luminosity and normalisation uncertainties
Detector-related uncertainties
Generator modelling uncertainties
Statistical interpretation
Likelihood fit results
Limits on VLQ pair production
Conclusions
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