Realistic 1D neutrino-driven explosions produce lower Fe-peak yields and different lighter-element patterns than piston or bomb models, with explodability driving discrepancies across FRANEC, KEPLER, and MESA progenitors.
& Schaffner-Bielich, J
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Nuclear mass model variations change outer-crust nuclide sequences and neutron-drip density but produce consistent thermodynamic properties and minimum-mass neutron-star configurations.
citing papers explorer
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Explodability matters: how realistic neutrino-driven explosions change explosive nucleosynthesis yields
Realistic 1D neutrino-driven explosions produce lower Fe-peak yields and different lighter-element patterns than piston or bomb models, with explodability driving discrepancies across FRANEC, KEPLER, and MESA progenitors.
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Outer-Crust Equations of State for Neutron Stars
Nuclear mass model variations change outer-crust nuclide sequences and neutron-drip density but produce consistent thermodynamic properties and minimum-mass neutron-star configurations.