Neutron activation resolves the 71Ge M-shell X-ray line at 158.7 eVee in a CONUS+ germanium detector, reducing CEvNS signal prediction uncertainty below 4%.
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Dr.Sai autonomously executed full physics analysis pipelines on real BESIII data to re-measure ten J/psi decay branching fractions, matching established benchmarks without any manual coding.
Shell model calculations find NLO contributions to 2νββ half-lives to excited states typically below 5% but larger when leading-order terms cancel, yielding half-life predictions slightly above the 76Ge limit and consistent with recent 82Se indications.
A refined HIJING initial-condition model with geometric bias from impact-parameter effects, combined with Boltzmann jet transport, describes the centrality dependence of charged-hadron suppression in 5.02 TeV Pb+Pb collisions.
GP15 maps BBH spectrograms to parameter posteriors via residual networks and normalizing flows, producing results consistent with LVK analyses on GWTC-2.1 and GWTC-3 events while running in seconds.
Momentum-dependent nuclear mean field with K0=230 MeV provides a good description of proton and kaon production and collective flows in 3 GeV Au+Au collisions, outperforming momentum-independent fields.
citing papers explorer
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Sub-keV energy calibration of CONUS+ via 71Ge M-shell neutron activation
Neutron activation resolves the 71Ge M-shell X-ray line at 158.7 eVee in a CONUS+ germanium detector, reducing CEvNS signal prediction uncertainty below 4%.
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Dr.Sai: An agentic AI for real-world physics analysis at BESIII
Dr.Sai autonomously executed full physics analysis pipelines on real BESIII data to re-measure ten J/psi decay branching fractions, matching established benchmarks without any manual coding.
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Two-neutrino $\beta\beta$ decay to excited states at next-to-leading order
Shell model calculations find NLO contributions to 2νββ half-lives to excited states typically below 5% but larger when leading-order terms cancel, yielding half-life predictions slightly above the 76Ge limit and consistent with recent 82Se indications.
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Geometric bias and centrality dependence of jet quenching in high-energy nuclear collisions
A refined HIJING initial-condition model with geometric bias from impact-parameter effects, combined with Boltzmann jet transport, describes the centrality dependence of charged-hadron suppression in 5.02 TeV Pb+Pb collisions.
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Assessment of normalizing flows for parameter estimation on time-frequency representations of gravitational-wave data
GP15 maps BBH spectrograms to parameter posteriors via residual networks and normalizing flows, producing results consistent with LVK analyses on GWTC-2.1 and GWTC-3 events while running in seconds.
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Proton and kaon production in Au+Au collisions at $\sqrt{s_{\rm NN}}=3$ GeV
Momentum-dependent nuclear mean field with K0=230 MeV provides a good description of proton and kaon production and collective flows in 3 GeV Au+Au collisions, outperforming momentum-independent fields.