Compression Modulus and Symmetry Energy of Nuclear Matter with KIDS Density Functional

Hana Gil, C. H. Hyun
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引用次数: 4

Abstract

Equation of state of dense nuclear matter is explored in the KIDS density functional theory. Parameters of the equation of state which are coefficients of the energy density expanded in powers of $(\rho - \rho_0)/3\rho_0$ where $\rho$ is the nuclear matter density and $\rho_0$ is its density at saturation are constrained by using both nuclear data and the mass-radius relation of the neutron star determined from the modern astronomy. We find that the combination of both data can reduce the uncertainty in the equation of state parameters significantly. We confirm that the newly constrained parameters reproduce the basic properties of spherical magic nuclei with high accuracy. Neutron drip lines, on the other hand, show non-negligible dependence on the uncertainty of the nuclear symmetry energy.
KIDS密度泛函下核物质的压缩模量和对称能
探讨了KIDS密度泛函理论中致密核物质的状态方程。状态方程的参数是以$(\rho - \rho_0)/3\rho_0$的幂展开的能量密度系数,其中$\rho$为核物质密度,$\rho_0$为饱和时的密度,通过使用核数据和由现代天文学确定的中子星质量-半径关系来约束。我们发现两种数据的结合可以显著降低状态参数方程的不确定性。我们证实了新的约束参数能够高精度地再现球形幻核的基本性质。另一方面,中子滴谱线对核对称能的不确定性有不可忽略的依赖性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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