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Bibliographic Details
Main Authors: Yasutake, Nobutoshi, Maruyama, Toshiki
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2309.09632
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author Yasutake, Nobutoshi
Maruyama, Toshiki
author_facet Yasutake, Nobutoshi
Maruyama, Toshiki
contents The equation of State for dense matter is studied with color molecular dynamics, in which hadron matter and quark matter are automatically distinguished only from quark color state. The quark-quark interactions are optimized to be consistent with saturation properties: symmetric energy, $L-$parameter, and incompressibility around nuclear density. In the calculations, the degrees of freedom of colors are solved at each numerical step, although the flavors are fixed as up or down quarks. The resultant mass-radius relations also satisfy the observational constraints such as the gravitational wave observations, NICER, and ``{\it the two-solar mass observations}" of neutron stars. In this model with the allowed parameter range, deconfined quark matter appears in the core of neutron stars via crossover. Although the current constraints from the observations are not enough to conclude whether quark matter appears at high-density region, our method would help to understand high-density material properties inside neutron stars in the future.
format Preprint
id arxiv_https___arxiv_org_abs_2309_09632
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Crossover equation of state based on color-molecular-dynamics
Yasutake, Nobutoshi
Maruyama, Toshiki
Nuclear Theory
The equation of State for dense matter is studied with color molecular dynamics, in which hadron matter and quark matter are automatically distinguished only from quark color state. The quark-quark interactions are optimized to be consistent with saturation properties: symmetric energy, $L-$parameter, and incompressibility around nuclear density. In the calculations, the degrees of freedom of colors are solved at each numerical step, although the flavors are fixed as up or down quarks. The resultant mass-radius relations also satisfy the observational constraints such as the gravitational wave observations, NICER, and ``{\it the two-solar mass observations}" of neutron stars. In this model with the allowed parameter range, deconfined quark matter appears in the core of neutron stars via crossover. Although the current constraints from the observations are not enough to conclude whether quark matter appears at high-density region, our method would help to understand high-density material properties inside neutron stars in the future.
title Crossover equation of state based on color-molecular-dynamics
topic Nuclear Theory
url https://arxiv.org/abs/2309.09632