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  1. Search for new physics in the final state with a single photon and large missing transverse momentum in proton-proton collisions at βˆšπ‘  =13 TeV

    A search for new physics in events featuring a single photon and missing transverse momentum is presented, using proton-proton βˆšπ‘  =13 TeV collision data corresponding to an integrated luminosity of 101 fbβˆ’1 collected by the CMS experiment at the CERN LHC between 2017 and 2018. This analysis, combined with a previous study of 36 fbβˆ’1 of 2016 data (totaling 137 fbβˆ’1), reveals no significant deviations from standard model expectations. The results are then used to establish 95% confidence level limits on parameters in theoretical models involving dark matter and large extra dimensions. Compared to the 2016-only analysis, this search achievesmore » up to a 14% improvement in exclusion reach for mediator masses in simplified dark matter models, along with 11% and 10% enhancements in the limits on the effective field theory suppression scale and the fundamental Planck scale, respectively. These results are the most stringent constraints on these parameters to date.« less
  2. Observation of Suppressed Charged-Particle Production in Ultrarelativistic Oxygen-Oxygen Collisions

    A hot and dense state of nuclear matter, known as the quark-gluon plasma, is created in collisions of ultrarelativistic heavy nuclei. Highly energetic quarks and gluons, collectively referred to as partons, lose energy as they travel through this matter, leading to suppressed production of particles with large transverse momenta (𝑝T). Conversely, high-𝑝T particle suppression has not been seen in proton-lead collisions, raising questions regarding the minimum system size required to observe parton energy loss. Oxygen-oxygen (OO) collisions examine a region of effective system size that lies between these two extreme cases. The CMS detector at the CERN LHC has beenmore » used to quantify charged-particle production in inclusive OO collisions for the first time via measurements of the nuclear modification factor (𝑅AA). The 𝑅AA is derived by comparing particle production to expectations based on proton-proton (𝑝⁒𝑝) data and has a value of unity in the absence of nuclear effects. The data for OO and 𝑝⁒𝑝 collisions at a nucleon-nucleon center-of-mass energy $$\sqrt{s_{NN}}$$ = 5.36  TeV correspond to integrated luminosities of 6.1  nbβˆ’1 and 1.02  pbβˆ’1, respectively. The 𝑅AA is below unity with a minimum of 0.69 Β± 0.04 around 𝑝T = 6  GeV. The data exhibit better agreement with theoretical models incorporating parton energy loss as compared to baseline models without energy loss.« less
  3. Improving missing transverse momentum estimation with a deep neural network

    At hadron colliders, the net transverse momentum of particles that do not interact with the detector (missing transverse momentum, $$^β†’_𝑝$$$$^{miss}_{T}$$) is a crucial observable in many analyses. In the standard model, $$^β†’_𝑝$$$$^{miss}_{T}$$ originates from neutrinos. Many beyond-the-standard-model particles, such as dark matter candidates, are also expected to leave the experimental apparatus undetected. This paper presents a novel deep neural network based $$^β†’_𝑝$$$$^{miss}_{T}$$ estimator, DeepMET, developed by the CMS Collaboration at the LHC. The DeepMET algorithm produces a weight for each reconstructed particle based on its properties. The estimator is based on the negative vector sum of the weighted transverse momentamore » of all reconstructed particles in an event. Compared with other estimators currently employed by CMS, DeepMET improves the $$^β†’_𝑝$$$$^{miss}_{T}$$ resolution by 10%–30%, shows improvement for a wide range of final states, is easier to train, and is more resilient against the effects of additional proton-proton interactions accompanying the collision of interest.« less
  4. Search for dijet resonances with data scouting in proton-proton collisions at $$\sqrt{s}=13$$ TeV

    A search is presented for narrow resonances, with a mass between 0.6 and 1.8 TeV, decaying to pairs of jets, in proton-proton collisions at $$\sqrt{s}=13$$ TeV. The search is performed using dijets that are reconstructed, selected, and recorded in a compact form by the high-level trigger in a technique referred to as β€œdata scouting”, from data collected in 2016–2018 corresponding to an integrated luminosity of 117 fbβˆ’1. The dijet mass spectra are well described by a smooth parameterization, and no significant evidence for the production of new particles is observed. Model-independent upper limits are presented on the product of themore » cross section, branching fraction, and acceptance for the individual cases of narrow quark-quark, quark-gluon, and gluon-gluon resonances, and are compared to the predictions from a variety of models of narrow dijet resonance production. The upper limit on the coupling of a dark matter mediator to quarks is presented as a function of the mediator mass. The sensitivity of this search goes beyond what is expected from statistical scaling with the integrated luminosity alone, as a consequence of the use of fewer parameters in the background function within a more robust statistical procedure.« less
  5. Inclusive and differential measurements of the $$\textrm{t}\overline{\textrm{t}}\mathcal{Ξ³}$$ cross section and the $$\textrm{t}\overline{\textrm{t}}\mathcal{Ξ³}/\textrm{t}\overline{\textrm{t}}$$ cross section ratio in proton-proton collisions at $$\sqrt{s}=13$$ TeV

    Inclusive and differential cross section measurements of top quark pair $$(\textrm{t}\overline{\textrm{t}})$$ production in association with a photon (Ξ³) are performed as a function of lepton, photon, top quark, and $$\textrm{t}\overline{\textrm{t}}$$ kinematic observables, using data from proton-proton collisions at $$\sqrt{s}=13$$ TeV, corresponding to an integrated luminosity of 138 fbβˆ’1, collected at the CERN LHC with the CMS detector. Events containing two leptons (electrons or muons) and a photon in the final state are considered. The fiducial cross section of $$\textrm{t}\overline{\textrm{t}}$$Ξ³ is measured to be 137 Β± 8 fb, in a phase space including events with a high momentum, isolated photon. Themore » fiducial cross section of $$\textrm{t}\overline{\textrm{t}}$$Ξ³ is also measured to be 56 Β± 5 fb when considering only events where the photon is emitted in the production part of the process. Both measurements are in agreement with the theoretical predictions, of 126 Β± 19 fb and 57 Β± 5 fb, respectively. Differential measurements are performed at the particle and parton levels. Additionally, inclusive and differential ratios between the cross sections of $$\textrm{t}\overline{\textrm{t}}$$Ξ³ and $$\textrm{t}\overline{\textrm{t}}$$ production are measured. The inclusive ratio is found to be 0.0133 Β± 0.0005, in agreement with the standard model prediction of 0.0127 Β± 0.0008. The top quark charge asymmetry in $$\textrm{t}\overline{\textrm{t}}$$Ξ³ production is also measured to be βˆ’0.012 Β± 0.042, compatible with both the standard model prediction and with no asymmetry.« less
  6. High-level hadronic tau lepton triggers of the CMS experiment in proton-proton collisions at √(s) = 13.6 TeV

    The trigger system of the CMS detector is pivotal in the acquisition of data for physics measurements and searches. Studies of final states characterized by hadronic decays of tau leptons require the reconstruction and the identification of genuine tau leptons against quark- and gluon-initiated jets at the trigger level. This is a difficult task, particularly as improvements to the LHC have resulted in an increased number of interactions per bunch crossing in recent years. To address this challenge, a series of machine-learning algorithms with high identification efficiency and low computational cost have been incorporated into the high-level trigger for hadronicallymore » decaying tau leptons. In this paper, these developments and the trigger performance are summarized using data collected by the CMS experiment in proton-proton collisions at √(s) = 13.6 TeV in 2022–2023, corresponding to an integrated luminosity of 62 fb-1.« less
  7. Measurement of 𝐷0 Meson Photoproduction in Ultraperipheral Heavy Ion Collisions

    This Letter reports the first measurement of photonuclear 𝐷0 meson production in ultraperipheral heavy ion collisions. The study is performed using lead-lead collision data, with an integrated luminosity of 1.34 nbβˆ’1, collected by the CMS experiment at a nucleon-nucleon center-of-mass energy of 5.36 TeV. Photonuclear events, where one of the colliding nuclei breaks up and the other remains intact, are selected based on breakup neutron emissions and by requiring no particle activity in a large rapidity interval in the direction of the photon-emitting nucleus. The 𝐷0 mesons are reconstructed via the 𝐷0 β†’ πΎβˆ’β’πœ‹+ decay channel, with the cross sectionmore » measured as a function of 𝐷0 meson transverse momentum and rapidity. The results are compared with next-to-leading-order perturbative QCD calculations that employ recent parametrizations of the lead nuclear parton distribution functions, as well as with predictions based on the color glass condensate framework. This measurement is the first photonuclear collision study characterizing parton distribution functions of lead nuclei for parton fractional momenta π‘₯ (relative to the nucleon) ranging approximately from a few 10βˆ’4 to 10βˆ’2 for different hard energy scale 𝑄2 selections.« less
  8. Search for low-mass hidden-valley dark showers with non-prompt muon pairs in proton-proton collisions at $$\sqrt{s}=13$$ TeV

    A search for signatures of a dark analog to quantum chromodynamics is performed. The analysis targets long-lived dark mesons that decay into standard-model particles, with a high branching fraction of the dark mesons decaying into muons. The dark mesons are formed by the hadronisation of dark partons, which are produced by a decay of the Higgs boson. The search is performed using a data set corresponding to an integrated luminosity of 41.6 fbβˆ’1, which was collected in proton-proton collisions at $$\sqrt{s}=13$$ TeV by the CMS experiment at the CERN LHC in 2018 using non-prompt muon triggers. The search is basedmore » on resonant muon pair signatures. Machine-learning techniques are employed in the analysis, utilising boosted decision trees to discriminate between signal and background. No significant excess is observed above the standard model expectation. Upper limits on the branching fraction of the Higgs boson decaying to dark partons are determined to be as low as 10βˆ’4 at 95% confidence level, surpassing and extending the existing limits on models with dark $$\tilde{Ο‰}$$ mesons for mean proper decay lengths of less than 500 mm and for $$\tilde{Ο‰}$$ masses down to 0.3 GeV. First limits are set for extended dark-shower models with two dark flavours that contain dark photons, probing their masses down to 0.33 GeV.« less
  9. Characterizing the initial state and dynamical evolution in XeXe and PbPb collisions using multiparticle cumulants

    For the first time, correlations among mixed-order moments of two or three flow harmonics β€”( v n k , v m l ) and ( v n k , v m l , v p q ), with k, l, and q denoting the respective ordersβ€”are measured in xenon–xenon (XeXe) collisions and compared with lead–lead (PbPb) results, providing a novel probe of collective behavior in heavy ion collisions. These measurements compare amore » nearly spherical, doubly-magic 208Pb nucleus to a triaxially deformed 129Xe nucleus, emphasizing the sensitivity to initial-state geometry fluctuations arising from nuclear deformation. The dependence of these results (vn, n = 2 , 3 , 4 ) on the shape and size of the nuclear overlap region is studied. Comparisons between v2, v3, and v4 demonstrate the importance of v3 and v4 in exploring the nonlinear hydrodynamic response of the quark-gluon plasma (QGP) to the initial spatial anisotropy. The results constrain initial-state model parameters that influence the evolution of the QGP. The CMS detector was used to collect XeXe and PbPb data at nucleon-nucleon center-of-mass energies of S N N = 5.44 and 5.36 TeV, respectively. Correlations are extracted using multiparticle mixed-harmonic cumulants (up to eight-particle cumulants) with charged particles in the pseudorapidity range |Ξ·| < 2.4 and transverse momentum range 0.5 < pT < 3 GeV/c.« less
  10. Characterization of the quantum state of top quark pairs produced in proton-proton collisions at $$\sqrt{s}$$ = 13 TeV using the beam and helicity bases

    Measurements of the spin correlation coefficients in the beam basis are presented for top quark-antiquark $$(t\bar{t}⁒)$$ systems produced in proton-proton collisions at $$\sqrt{s}$$ = 13 TeV collected by the CMS experiment in 2016–2018, and corresponding to an integrated luminosity of 138 fbβˆ’1. The $$t\bar{t}$$ system is reconstructed from final states containing an electron or muon and jets. Together with the previously reported results in the helicity basis, these measurements are used to decompose the system into the Bell and spin eigenstates in various kinematic regions. The spin correlation coefficients are also used to evaluate properties of the $$t\bar{t}$$ quantum state,more » such as the purity, von Neumann entropy, and entanglement. All results are consistent with standard model predictions.« less
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