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Main Authors: You, Hao-Song, Chen, Huai-Min, Xu, Jian-Feng, Xia, Cheng-Jun, Xu, Ren-Xin, Peng, Guang-Xiong
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.14190
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author You, Hao-Song
Chen, Huai-Min
Xu, Jian-Feng
Xia, Cheng-Jun
Xu, Ren-Xin
Peng, Guang-Xiong
author_facet You, Hao-Song
Chen, Huai-Min
Xu, Jian-Feng
Xia, Cheng-Jun
Xu, Ren-Xin
Peng, Guang-Xiong
contents We study the properties of strangelets at finite temperature $T$, employing an equivparticle model that incorporates both linear confinement and leading-order perturbative interactions with density-dependent quark masses. The shell effects are analyzed by solving the Dirac equations for quarks within the mean-field approximation. As temperature increases, these effects weaken due to the occupation probability of single-particle levels being governed by the Fermi-Dirac statistics, a phenomenon known as shell dampening. Surprisingly, the surface tension, derived from a liquid-drop formula, does not decrease with temperature but instead rises until it peaks at $T \approx 20-40$ MeV. At this temperature, shell corrections become negligible, and the formula provides a reasonable approximation for the free energy per baryon of strangelets. However, the curvature term decreases with $T$ despite the presence of shell effects. The neutron and proton emission rates are determined microscopically by the external nucleon gas densities that are in equilibrium with strangelets. These emission rate generally increases with $T$ for stable strangelets, but decrease for those that are unstable to nucleon emission at $T$ = 0. The other properties of $β$-stable strangelets obtained with various parameter sets are presented as well. The results indicated in this work are useful for understanding the products of binary compact star mergers and heavy-ion collisions.
format Preprint
id arxiv_https___arxiv_org_abs_2405_14190
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Strangelets at finite temperature
You, Hao-Song
Chen, Huai-Min
Xu, Jian-Feng
Xia, Cheng-Jun
Xu, Ren-Xin
Peng, Guang-Xiong
High Energy Physics - Phenomenology
Nuclear Theory
We study the properties of strangelets at finite temperature $T$, employing an equivparticle model that incorporates both linear confinement and leading-order perturbative interactions with density-dependent quark masses. The shell effects are analyzed by solving the Dirac equations for quarks within the mean-field approximation. As temperature increases, these effects weaken due to the occupation probability of single-particle levels being governed by the Fermi-Dirac statistics, a phenomenon known as shell dampening. Surprisingly, the surface tension, derived from a liquid-drop formula, does not decrease with temperature but instead rises until it peaks at $T \approx 20-40$ MeV. At this temperature, shell corrections become negligible, and the formula provides a reasonable approximation for the free energy per baryon of strangelets. However, the curvature term decreases with $T$ despite the presence of shell effects. The neutron and proton emission rates are determined microscopically by the external nucleon gas densities that are in equilibrium with strangelets. These emission rate generally increases with $T$ for stable strangelets, but decrease for those that are unstable to nucleon emission at $T$ = 0. The other properties of $β$-stable strangelets obtained with various parameter sets are presented as well. The results indicated in this work are useful for understanding the products of binary compact star mergers and heavy-ion collisions.
title Strangelets at finite temperature
topic High Energy Physics - Phenomenology
Nuclear Theory
url https://arxiv.org/abs/2405.14190