Neutrino Cooled Disk in Post-merger System Studied via Numerical GR MHD Simulation with a Composition-dependent Equation of State

Q4 Physics and Astronomy Acta Physica Polonica B, Proceedings Supplement Pub Date : 2023-03-31 DOI:10.5506/aphyspolbsupp.16.6-a6

A. Janiuk

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Abstract

The code HARM\_COOL, a conservative scheme for relativistic magnetohydrodynamics, is being developed in our group and works with a tabulated equation of state of dense matter. This EOS can be chosen and used during dynamical simulation, instead of the simple ideal gas one. In this case, the inversion scheme between the conserved and primitive variables is not a trivial task. In principle, the code needs to solve numerically five coupled non-linear equations at every time-step. The 5-D recovery schemes were originally implemented in HARM and worked accurately for a simple polytropic EOS which has an analytic form. Our current simulations support the composition-dependent EOS, formulated in terms of rest-mass density, temperature and electron fraction. In this proceeding, I discuss and compare several recovery schemes that have been included in our code. I also present and discuss their convergence tests. Finally, I show set of preliminary results of a numerical simulation, addressed to the post-merger system formed after the binary neutron stars (BNS) coalescence.

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基于组成相关状态方程的合并后系统中中微子冷却盘的数值GR MHD模拟研究

我们小组正在开发相对论磁流体力学的保守方案HARM\_COOL，并与致密物质的状态表方程一起工作。在动力学模拟中，可以选择使用这种EOS，而不是简单的理想气体EOS。在这种情况下，保守变量和基本变量之间的反转方案不是一项简单的任务。原则上，代码需要在每个时间步解五个耦合非线性方程。5-D恢复方案最初在HARM中实施，并准确地用于具有解析形式的简单多向EOS。我们目前的模拟支持成分依赖的EOS，根据静止质量密度，温度和电子分数制定。在本文中，我将讨论并比较代码中包含的几种恢复方案。本文还对它们的收敛性检验进行了介绍和讨论。最后，我展示了一组数值模拟的初步结果，针对双中子星(BNS)合并后形成的合并后系统。

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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