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  1. Precision measurement of the $$Ξ^0_b$$ baryon lifetime

    A sample of 𝑝⁒𝑝 collision data, corresponding to an integrated luminosity of 5.4 fbβˆ’1 and collected by the LHCb experiment during LHC Run 2, is used to measure the ratio of the lifetime of the $$Ξ^0_b$$ baryon to that of the $$Ξ›^0_b$$ baryon, π‘Ÿπœ $$≑$$ $$𝜏_{Ξ^0_b}$$$$/𝜏_{Ξ›^0_b}$$. The value π‘Ÿ$$^{\textrm{Run 2}}_𝜏$$ =1.004 Β± 0.009 Β± 0.006 is obtained, where the first uncertainty is statistical and the second systematic. This value is averaged with the corresponding value from Run 1 to obtain π‘Ÿπœ =1.004 Β± 0.008 Β± 0.005. Multiplying by the known value of the $$Ξ›^0_b$$ lifetime yields $$𝜏_{Ξ^0_b}$$ = 1.475 Β±more » 0.012 Β± 0.008 Β± 0.009 ps, where the last uncertainty is due to the limited knowledge of the $$Ξ›^0_b$$ lifetime. This measurement improves the precision of the current world average of the $$Ξ^0_b$$ lifetime by about a factor of two, and is in good agreement with the most recent theoretical predictions.« less
  2. Physics with high-luminosity proton-nucleus collisions at the LHC

    The physics case for the operation of high-luminosity proton-nucleus (pA) collisions at the CERN LHC is reviewed. The collection of $$\mathcal{O}$$(1–10 pbβˆ’1) of proton-lead (pPb) collisions at the LHC will provide unique physics opportunities in a broad range of topics including proton and nuclear parton distribution functions (PDFs and nPDFs), generalised parton distributions (GPDs), transverse momentum dependent PDFs (TMDs), low-x quantum chromodynamics and parton saturation, hadron spectroscopy, baseline studies for quark-gluon plasma and parton collectivity, double and triple parton scatterings, photon–photon collisions, and physics beyond the Standard Model; which are not otherwise as clearly accessible by exploiting data from anymore » other colliding system at the LHC. This report summarises the accelerator aspects of high-luminosity pA operation at the LHC, as well as each of the physics topics outlined above, including the relevant experimental measurements that motivate much larger pA datasets than collected to date.« less
  3. Study of light-meson resonances decaying to K S 0 K Ο€ in the B β†’ ( K S 0 K Ο€ ) K channels

    A study is presented of B + β†’ K S 0 K βˆ’ Ο€ + K + and B + β†’ K S 0 K + Ο€ βˆ’ K + decays based on the analysis of proton-proton collision data collected with the LHCb detector at center-of-mass energies of 7, 8 and 13 TeV, corresponding to an integrated luminosity of 9     fb βˆ’ 1 . The more » K S 0 K Ο€ invariant-mass distributions of both B + decay modes show, in the m ( K S 0 K Ο€ ) < 1.85     GeV mass region, large activity which is resolved using an amplitude analysis. A simple model, where J P C amplitudes are described by multiple Breit-Wigner functions with appropriate angular distributions, provides a good description of the experimental data. In this approach a complex mixture of J P C = 0 βˆ’ + , 1 + + and 1 + βˆ’ amplitudes is observed that is dominated by Ξ· ( 1405 ) , Ξ· ( 1470 ) , Ξ· ( 1760 ) , f 1 ( 1285 ) , f 1 ( 1420 ) and h 1 ( 1405 ) resonances. The K S 0 K Ο€ Dalitz plots are dominated by asymmetric crossing K * K Β― bands which are different for the two B + decay modes. This is due to a different interference pattern between the 1 + + and 1 + βˆ’ amplitudes in the two channels. Branching fractions are measured for each resonant contribution. Β© 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  4. Search for resonance-enhanced C P and angular asymmetries in the Ξ› c + β†’ p ΞΌ + ΞΌ βˆ’ decay at LHCb

    The first measurement of the C P asymmetry of the decay rate ( A C P ) and the C P average ( Ξ£ A FB ) and C P asymmetry ( Ξ” A FB ) of the forward-backward asymmetry in the muon system of Ξ› c + β†’ p ΞΌ + ΞΌ βˆ’ decays is reported. The measurement is performed using a data sample of proton-proton collisions, recordedmore » by the LHCb experiment from 2016 to 2018 at a center-of-mass energy of 13 TeV, which corresponds to an integrated luminosity of 5.4     fb βˆ’ 1 . The asymmetries are measured in two regions of dimuon mass near the  Ο• -meson mass peak. The dimuon-mass integrated results are A C P = ( βˆ’ 1.1 Β± 4.0 Β± 0.5 ) % , Ξ£ A FB = ( 3.9 Β± 4.0 Β± 0.6 ) % , Ξ” A FB = ( 3.1 Β± 4.0 Β± 0.4 ) % , where the first uncertainty is statistical and the second systematic. The results are consistent with the conservation of C P symmetry and the Standard Model expectations. Β© 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  5. Test of Lepton Flavor Universality with B + β†’ K + Ο€ + Ο€ βˆ’ β„“ + β„“ βˆ’ Decays

    The first test of lepton flavor universality between muons and electrons using B + β†’ K + Ο€ + Ο€ βˆ’ β„“ + β„“ βˆ’ ( β„“ = e , ΞΌ ) decays is presented. The measurement is performed with data from proton-proton collisions collected by the LHCb experiment at center-of-mass energies of 7,more » 8, and 13 TeV, corresponding to an integrated luminosity of 9     fb βˆ’ 1 . The ratio of branching fractions between B + β†’ K + Ο€ + Ο€ βˆ’ e + e βˆ’ and B + β†’ K + Ο€ + Ο€ βˆ’ ΞΌ + ΞΌ βˆ’ decays is measured in the dilepton invariant-mass-squared range 1.1 < q 2 < 7.0     GeV 2 / c 4 and is found to be R K Ο€ Ο€ βˆ’ 1 = 1.3 1 βˆ’ 0.17 + 0.18 ( stat )   βˆ’ 0.09 + 0.12 ( syst ) , in agreement with the standard model prediction. The first observation of the B + β†’ K + Ο€ + Ο€ βˆ’ e + e βˆ’ decay is also reported. Β© 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  6. Measurement of C P asymmetries in Ξ› b 0 β†’ p h βˆ’ decays

    A search for C P violation in Ξ› b 0 β†’ p K βˆ’ and Ξ› b 0 β†’ p Ο€ βˆ’ decays is presented using the full Run 1 and Run 2 data samples of p p collisions collected with the LHCb detector, corresponding to an integrated luminosity of 9     fb βˆ’ 1 at center-of-mass energies of 7, 8, and 13 TeV. For the Run 2 data sample, the C P -violatingmore » asymmetries are measured to be A C P p K βˆ’ = ( βˆ’ 1.4 Β± 0.7 Β± 0.4 ) % and A C P p Ο€ βˆ’ = ( 0.4 Β± 0.9 Β± 0.4 ) % , where the first uncertainty is statistical and the second is systematic. Following significant improvements in the evaluation of systematic uncertainties compared to the previous LHCb measurement, the Run 1 dataset is reanalyzed to update the corresponding results. When combining the Run 2 and updated Run 1 measurements, the final results are found to be A C P p K βˆ’ = ( βˆ’ 1.1 Β± 0.7 Β± 0.4 ) % and A C P p Ο€ βˆ’ = ( 0.2 Β± 0.8 Β± 0.4 ) % , constituting the most precise measurements of these asymmetries to date. Β© 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  7. Search for D 0 meson decays to Ο€ + Ο€ βˆ’ e + e βˆ’ and K + K βˆ’ e + e βˆ’ final states

    A search for D 0 meson decays to the Ο€ + Ο€ βˆ’ e + e βˆ’ and K + K βˆ’ e + e βˆ’ final states is reported using a sample of proton-proton collisions collected by the LHCb experiment at a center-of-mass energy of 13 TeV, corresponding to an integrated luminosity of 6     fb βˆ’ 1 . The decay D 0 β†’ Ο€more » + Ο€ βˆ’ e + e βˆ’ is observed for the first time when requiring that the two electrons are consistent with coming from the decay of a Ο• or ρ 0 / Ο‰ meson. The corresponding branching fractions are measured relative to the D 0 β†’ K βˆ’ Ο€ βˆ’ [ e + e βˆ’ ] ρ 0 / Ο‰ decay, where the two electrons are consistent with coming from the decay of a ρ 0 or Ο‰ meson. No evidence is found for the D 0 β†’ K + K βˆ’ e + e βˆ’ decay and world-best limits are set on its branching fraction. The results are compared to, and found to be consistent with, the branching fractions of the D 0 β†’ Ο€ + Ο€ βˆ’ ΞΌ + ΞΌ βˆ’ and D 0 β†’ K + K βˆ’ ΞΌ + ΞΌ βˆ’ decays recently measured by LHCb and confirm lepton universality at the current precision. Β© 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  8. Theoretical description of proton-deuteron interactions using exact two-body dynamics of the femtoscopic correlation method

    Modeling proton-deuteron interactions is particularly challenging. Due the deuteron's large size, the interaction can extend over several femtometers. The degree to which it can be modeled as a two-body problem might also be questioned. One way to study these interactions is through femtoscopic correlation measurements of particle pairs, extracting information using available theoretical models. In this work, we examine two approaches for describing proton-deuteron correlations: the LednickΓ½-Lyuboshits formalism and full numerical solutions of the SchrΓΆdinger equation. Here, our results show that the differences between these methods are significant. Furthermore, we demonstrate that incorporating higher-order partial wavesβ€”particularly the p waveβ€”is essentialmore » for accurately capturing the dynamics of proton–deuteron interactions and the full potential of the strong force.« less
  9. Heavy ion collisions from $$\sqrt{s_{NN}}$$ of 62.4 GeV down to 7.7 GeV in the EPOS4 framework

    The EPOS4 project is an attempt to construct a realistic model for describing relativistic collisions of different systems, from proton-proton (𝑝⁒𝑝) to nucleus-nucleus (𝐴⁒𝐴), at energies from several TeV per nucleon down to several GeV. We argue that a parallel scattering formalism (as in EPOS4) is relevant for primary scatterings in 𝐴⁒𝐴 collisions above 4 GeV, whereas sequential scattering (cascade) is appropriate below. We present briefly the basic elements of EPOS4, and then investigate heavy ion collisions from 62.4 GeV down to 7.7 GeV, to understand how physics changes with energy, studying in particular the disappearance of the fluid componentmore » at low energies.« less
  10. New proxies for second-order cumulants of conserved charges in heavy-ion collisions within the EPOS4 framework

    Proxies for cumulants of baryon number 𝐡, electric charge 𝑄, and strangeness 𝑆 are usually measured in heavy-ion collisions via moments of net-number distribution of given hadronic species. Since these cumulants of conserved charges are expected to be sensitive to the existence of a critical point in the phase diagram of nuclear matter, it is crucial to ensure that the proxies used as substitutes are as close to them as possible. Hence, we use the EPOS4 framework to generate Au + Au collisions at several collision energies of the BNL Relativistic Heavy Ion Collider beam energy scan. We compute second-ordermore » net cumulants of πœ‹, 𝐾, and 𝑝, for which experimental data have been published as well as the corresponding conserved charge cumulants. We then compare them with proxies, defined in previous lattice QCD and hadron resonance gas model studies, which are shown to reproduce more accurately their associated conserved charge cumulants. We investigate the impact of hadronic rescatterings occurring in the late evolution of the system on these quantities, as well as the amount of signal actually originating from the bulk medium which endures a phase transition.« less
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