Investigations on the equation of state of neutron star matter with density-dependent relativistic mean-field model

arXiv - PHYS - Nuclear Theory Pub Date : 2024-09-11 DOI:arxiv-2409.07038

Kaixuan Huang, Jinniu Hu

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Abstract

The compact object with a mass of $2.50-2.67~M_\odot$ observed by LIGO Scientific and Virgo collaborations in GW190814, as well as the recent report of a light compact object with a mass and radius of $M=0.77^{+0.20}_{-0.17}M_{\odot}$ and $R=10.4^{+0.86}_{-0.78}$ km within the supernova remnant HESS J1731-347, have posed a great challenge to the investigations into the supranuclear matter. In the inner core region of the neutron star, the strangeness degrees of freedom, such as the hyperons, can be present, which is also named as a hyperonic star. In this work, the neutron star consisting of nucleons and leptons, and the hyperonic star including the hyperons will be studied in the framework of the density-dependent relativistic mean-field (DDRMF) model. Some popular DDRMF parameterizations will be adopted to investigate the properties of nuclear matter and the mass, radius, tidal deformability, and other properties of neutron star and hyperonic stars. We find that the maximum masses of neutron star calculated by DD-MEX, DD-MEX1, DD-MEX2, DD-MEXY and DD-LZ1 sets can be around $2.5-2.6~M_\odot$ with quite stiff equations of state (EOSs) generated by their strong repulsive contributions from vector potentials at high densities. Moreover, by investigating the influence of the crust EOS and core EOS on the neutron stars, we find that the observational data from HESS J1731-347 suggest the requirement of a crust EOS with a higher $L$ parameter and a core EOS with a lower $L$ parameter, and the $M-R$ relations from the constructed EOSs can also be consistent with the observables of PSR J0740+6620, PSR J0030+0451 from NICER and the GW170817 event. With the inclusion of hyperons, the hyperonic star matter becomes softer compared to the neutron star matter. But the massive hyperonic star can also be obtained with DDRMF parameter sets if the vector coupling constants are strong.

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用密度相关相对论均场模型研究中子星物质的状态方程

LIGOScientific和Virgo合作小组在GW190814中观测到的质量为2.50-2.67~M_\odot$的致密天体，以及最近报告的一个质量和半径为$M=0.77^{+0.20}_{-0.17}M_{\odot}$和$R=10.4^{+0.86}_{-0.78}$ km的超新星残余物HESS J1731-347的报告，都对超核物质的研究提出了巨大的挑战。在中子星的内核区域，可能存在超子等奇异自由度，这也被称为超子星。本文将在密度依赖相对论均场（DDRMF）模型的框架内研究由核子和轻子组成的中子星和包括超子在内的超子星。将采用一些常用的 DDRMF 参数来研究核物质的性质以及中子星和超子星的质量、半径、潮汐变形性等性质。我们发现，通过DD-MEX、DD-MEX1、DD-MEX2、DD-MEXY和DD-LZ1组计算的中子星的最大质量可以达到2.5-2.6~M_\odot$左右，其高密度下矢量势的强斥力贡献产生了不稳定的状态方程（EOS）。此外，通过研究星壳EOS和星核EOS对中子星的影响，我们发现来自HESS J1731-347的观测数据表明需要一个具有较高$L$参数的星壳EOS和一个具有较低$L$参数的星核EOS，而且所构建的EOS的$M-R$关系也可以与来自NICER的PSR J0740+6620、PSR J0030+0451和GW170817事件的观测数据相一致。由于包含了超子，超子星物质与中子星物质相比变得更加柔和。但是，如果矢量耦合常数很强，大质量超子星也可以通过DDRMF参数集得到。

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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arXiv - PHYS - Nuclear Theory

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