A search for beyond the standard model spin-0 bosons,, that decay into pairs of electrons, muons, or tau leptons is presented. The search targets the associated production of such bosons with aorgauge boson, or a top quark-antiquark pair, and uses events with three or four charged leptons, including hadronically decaying tau leptons. The proton-proton collision data set used in the analysis was collected at the LHC from 2016 to 2018 at a center-of-mass energy of 13 TeV, and corresponds to an integrated luminosity of. The observations are consistent with the predictions from standard model processes. Upper limits are placed on the product of cross sections and branching fractions of such new particles over the mass range of 15 to 350 GeV with scalar, pseudoscalar, or Higgs-boson-like couplings, as well as on the product of coupling parameters and branching fractions. Several model-dependent exclusion limits are also presented. For a Higgs-boson-likemodel, limits are set on the mixing angle of the Higgs boson with theboson. For the associated production of aboson with a top quark-antiquark pair, limits are set on the coupling to top quarks. Finally, limits are set for the first time on a fermiophilic dilaton-like model with scalar couplings and a fermiophilic axion-like model with pseudoscalar couplings.
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© 2024 CERN, for the CMS Collaboration 2024 CERN Free, publicly-accessible full text available July 1, 2025 -
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Abstract A description is presented of the algorithms used to reconstruct energy deposited in the CMS hadron calorimeter during Run 2 (2015–2018) of the LHC. During Run 2, the characteristic bunch-crossing spacing for proton-proton collisions was 25 ns, which resulted in overlapping signals from adjacent crossings. The energy corresponding to a particular bunch crossing of interest is estimated using the known pulse shapes of energy depositions in the calorimeter, which are measured as functions of both energy and time. A variety of algorithms were developed to mitigate the effects of adjacent bunch crossings on local energy reconstruction in the hadron calorimeter in Run 2, and their performance is compared.
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Free, publicly-accessible full text available October 1, 2024
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Free, publicly-accessible full text available October 1, 2024
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Abstract The mass of the top quark is measured in 36.3
of LHC proton–proton collision data collected with the CMS detector at$$\,\text {fb}^{-1}$$ . The measurement uses a sample of top quark pair candidate events containing one isolated electron or muon and at least four jets in the final state. For each event, the mass is reconstructed from a kinematic fit of the decay products to a top quark pair hypothesis. A profile likelihood method is applied using up to four observables per event to extract the top quark mass. The top quark mass is measured to be$$\sqrt{s}=13\,\text {Te}\hspace{-.08em}\text {V} $$ . This approach significantly improves the precision over previous measurements.$$171.77\pm 0.37\,\text {Ge}\hspace{-.08em}\text {V} $$ Free, publicly-accessible full text available October 1, 2024 -
A bstract The second-order (
v 2) and third-order (v 3) Fourier coefficients describing the azimuthal anisotropy of prompt and nonprompt (from b-hadron decays) J/ ψ, as well as prompt ψ(2S) mesons are measured in lead-lead collisions at a center-of-mass energy per nucleon pair of = 5$$ \sqrt{s_{\textrm{NN}}} $$ . 02 TeV. The analysis uses a data set corresponding to an integrated luminosity of 1.61 nb− 1recorded with the CMS detector. The J/ ψ and ψ(2S) mesons are reconstructed using their dimuon decay channel. Thev 2andv 3coefficients are extracted using the scalar product method and studied as functions of meson transverse momentum and collision centrality. The measuredv 2values for prompt J/ ψ mesons are found to be larger than those for nonprompt J/ ψ mesons. The prompt J/ ψv 2values at highp Tare found to be underpredicted by a model incorporating only parton energy loss effects in a quark-gluon plasma medium. Prompt and nonprompt J/ ψ mesonv 3and prompt ψ(2S)v 2andv 3values are also reported for the first time, providing new information about heavy quark interactions in the hot and dense medium created in heavy ion collisions.Free, publicly-accessible full text available October 1, 2024