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Expanding the limits of nuclear stability at finite temperature

Ante Ravlić (), Esra Yüksel, Tamara Nikšić and Nils Paar ()
Additional contact information
Ante Ravlić: University of Zagreb
Esra Yüksel: University of Surrey
Tamara Nikšić: University of Zagreb
Nils Paar: University of Zagreb

Nature Communications, 2023, vol. 14, issue 1, 1-8

Abstract: Abstract Properties of nuclei in hot stellar environments such as supernovae or neutron star mergers are largely unexplored. Since it is poorly understood how many protons and neutrons can be bound together in hot nuclei, we investigate the limits of nuclear existence (drip lines) at finite temperature. Here, we present mapping of nuclear drip lines at temperatures up to around 20 billion kelvins using the relativistic energy density functional theory (REDF), including treatment of thermal scattering of nucleons in the continuum. With extensive computational effort, the drip lines are determined using several REDFs with different underlying interactions, demonstrating considerable alterations of the neutron drip line with temperature increase, especially near the magic numbers. At temperatures T ≲ 12 billion kelvins, the interplay between the properties of nuclear effective interaction, pairing, and temperature effects determines the nuclear binding. At higher temperatures, we find a surprizing result that the total number of bound nuclei increases with temperature due to thermal shell quenching. Our findings provide insight into nuclear landscape for hot nuclei, revealing that the nuclear drip lines should be viewed as limits that change dynamically with temperature.

Date: 2023
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DOI: 10.1038/s41467-023-40613-2

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