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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 fb−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 $$Λ^0_b$$ baryon, 𝑟𝜏 $$≡$$ $$𝜏_{Ξ^0_b}$$$$/𝜏_{Λ^0_b}$$. The value 𝑟$$^{\textrm{Run 2}}_𝜏$$ =1.004 ± 0.009 ± 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 𝑟𝜏 =1.004 ± 0.008 ± 0.005. Multiplying by the known value of the $$Λ^0_b$$ lifetime yields $$𝜏_{Ξ^0_b}$$ = 1.475 ±more » 0.012 ± 0.008 ± 0.009 ps, where the last uncertainty is due to the limited knowledge of the $$Λ^0_b$$ 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. Study of light-meson resonances decaying to K S 0 K π in the B ( K S 0 K π ) K channels

    A study is presented of B + K S 0 K π + K + and B + K S 0 K + π 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 1 . The more » K S 0 K π invariant-mass distributions of both B + decay modes show, in the m ( K S 0 K π ) < 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 + , 1 + + and 1 + amplitudes is observed that is dominated by η ( 1405 ) , η ( 1470 ) , η ( 1760 ) , f 1 ( 1285 ) , f 1 ( 1420 ) and h 1 ( 1405 ) resonances. The K S 0 K π Dalitz plots are dominated by asymmetric crossing K * K ¯ bands which are different for the two B + decay modes. This is due to a different interference pattern between the 1 + + and 1 + amplitudes in the two channels. Branching fractions are measured for each resonant contribution. © 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  3. Branching fraction measurement of the decay B + ψ ( 2 S ) ϕ ( 1020 ) K +

    The branching fraction of the decay B + ψ ( 2 S ) ϕ ( 1020 ) K + , relative to the topologically similar decay B + J / ψ ϕ ( 1020 ) K + , is measured using proton-proton collision data collected by the LHCb experiment at center-of-mass energies of 7, 8, and 13 TeV, corresponding to an integrated luminosity of 9 fb 1 . The ratio is found to be 0.061 ± 0.004more » ± 0.009 , where the first uncertainty is statistical and the second systematic. Using the world-average branching fraction for B + J / ψ ϕ ( 1020 ) K + , the branching fraction for the decay B + ψ ( 2 S ) ϕ ( 1020 ) K + is found to be ( 3.0 ± 0.2 ± 0.5 ± 0.2 ) × 10 6 , where the first uncertainty is statistical, the second systematic, and the third is due to the branching fraction of the normalization channel. © 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  4. Search for resonance-enhanced C P and angular asymmetries in the Λ c + p μ + μ decay at LHCb

    The first measurement of the C P asymmetry of the decay rate ( A C P ) and the C P average ( Σ A FB ) and C P asymmetry ( Δ A FB ) of the forward-backward asymmetry in the muon system of Λ c + p μ + μ 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 1 . The asymmetries are measured in two regions of dimuon mass near the  ϕ -meson mass peak. The dimuon-mass integrated results are A C P = ( 1.1 ± 4.0 ± 0.5 ) % , Σ A FB = ( 3.9 ± 4.0 ± 0.6 ) % , Δ A FB = ( 3.1 ± 4.0 ± 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. © 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  5. Measurement of C P asymmetries in Λ b 0 p h decays

    A search for C P violation in Λ b 0 p K and Λ b 0 p π 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 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 = ( 1.4 ± 0.7 ± 0.4 ) % and A C P p π = ( 0.4 ± 0.9 ± 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 = ( 1.1 ± 0.7 ± 0.4 ) % and A C P p π = ( 0.2 ± 0.8 ± 0.4 ) % , constituting the most precise measurements of these asymmetries to date. © 2025 CERN, for the LHCb Collaboration 2025 CERN« less
  6. Study of Λ b 0 and Ξ b 0 Decays to Λ h + h and Evidence for C P Violation in Λ b 0 Λ K + K Decays

    A study of Λ b 0 and Ξ b 0 decays to Λ h + h ( h ( ) = π , K ) is performed using p p collision data collected by the LHCb experiment during LHC Runs 1–2, corresponding to an integrated luminosity of 9 fb 1 more » . The branching fractions for these decays are measured using the Λ b 0 Λ c + ( Λ π + ) π decay as a control channel. The decays Λ b 0 Λ π + π and Ξ b 0 Λ K π + are observed for the first time. For decay modes with sufficient signal yields, C P asymmetries are measured in the full and localized regions of the final-state phase space. Evidence is found for C P violation in the Λ b 0 Λ K + K decay, interpreted as originating primarily from an asymmetric Λ b 0 N * + K decay amplitude. The measured C P asymmetries for other decays are compatible with zero. © 2025 CERN, for the LHCb Collaboration 2025 CERN« less

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