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Main Authors: Hua, Lei-Ming, Xu, Jun
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.15963
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author Hua, Lei-Ming
Xu, Jun
author_facet Hua, Lei-Ming
Xu, Jun
contents We have studied the shear and bulk viscosities of asymmetric nuclear matter in the mechanical and chemical instability region based on IBUU transport simulations in a box system. The Green-Kubo method is used to calculate these viscosities with a prepared dynamically equilibrated nuclear system with hot clusters. While the behavior of the shear viscosity is largely affected by energy-dependent nucleon-nucleon cross sections, the bulk viscosity increases significantly in the presence of nuclear clusters compared to that in uniform nuclear matter. Increasing isospin asymmetry generally increases both viscosities, while their behaviors are qualitatively modified once the isospin asymmetry is large enough to affect significantly the spinodal region. Our calculation shows that the bulk viscosity is more sensitive to the nuclear clustering than the shear viscosity, and is thus a robust quantity related to the phase diagram of asymmetric nuclear matter.
format Preprint
id arxiv_https___arxiv_org_abs_2402_15963
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Transport properties of asymmetric nuclear matter in the spinodal region
Hua, Lei-Ming
Xu, Jun
Nuclear Theory
We have studied the shear and bulk viscosities of asymmetric nuclear matter in the mechanical and chemical instability region based on IBUU transport simulations in a box system. The Green-Kubo method is used to calculate these viscosities with a prepared dynamically equilibrated nuclear system with hot clusters. While the behavior of the shear viscosity is largely affected by energy-dependent nucleon-nucleon cross sections, the bulk viscosity increases significantly in the presence of nuclear clusters compared to that in uniform nuclear matter. Increasing isospin asymmetry generally increases both viscosities, while their behaviors are qualitatively modified once the isospin asymmetry is large enough to affect significantly the spinodal region. Our calculation shows that the bulk viscosity is more sensitive to the nuclear clustering than the shear viscosity, and is thus a robust quantity related to the phase diagram of asymmetric nuclear matter.
title Transport properties of asymmetric nuclear matter in the spinodal region
topic Nuclear Theory
url https://arxiv.org/abs/2402.15963