The paper develops a search algorithm to find observable MeV gamma-ray peaks from r-process isotope decays in mergers and shows Rh-106 can distinguish main versus weak r-process while Tl-208 remains robust across model variations.
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Large-scale generation of fission barriers and half-lives for 3300 nuclei with BSkG3 EDF including triaxial/octupole effects and odd nuclei.
Monte Carlo dropout Bayesian neural network trained with physics inputs reproduces abrupt charge-radii increase near N=60 for Z=37-40 and shell quenching at N=126, achieving comparable RMSD on training and validation sets.
Radioactive molecules combine nuclear and molecular properties to offer enhanced sensitivity for detecting new physics beyond the Standard Model.
RMF calculations identify a shell/sub-shell closure at N=154 in Es isotopes using the NL-SH parameter set, along with estimates of alpha, beta, and cluster decay half-lives.
citing papers explorer
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Identifying observable MeV lines from the decays of weak and main $r$-process isotopes in mergers
The paper develops a search algorithm to find observable MeV gamma-ray peaks from r-process isotope decays in mergers and shows Rh-106 can distinguish main versus weak r-process while Tl-208 remains robust across model variations.
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Large-scale fission data generation with BSkG3
Large-scale generation of fission barriers and half-lives for 3300 nuclei with BSkG3 EDF including triaxial/octupole effects and odd nuclei.
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Input-driven analysis in predicting nuclear charge radii using Monte Carlo dropout Bayesian neural network
Monte Carlo dropout Bayesian neural network trained with physics inputs reproduces abrupt charge-radii increase near N=60 for Z=37-40 and shell quenching at N=126, achieving comparable RMSD on training and validation sets.
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Radioactive Molecules as Laboratories of Fundamental Physics
Radioactive molecules combine nuclear and molecular properties to offer enhanced sensitivity for detecting new physics beyond the Standard Model.
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The Ground State Aspects and the Impact of Shell Structures on the Stability of Es-Isotopes
RMF calculations identify a shell/sub-shell closure at N=154 in Es isotopes using the NL-SH parameter set, along with estimates of alpha, beta, and cluster decay half-lives.