Toward General Relativistic Magnetohydrodynamics Simulations in Stationary Nonvacuum Spacetimes

IF 8.8 1区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Prashant Kocherlakota, Ramesh Narayan, Koushik Chatterjee, Alejandro Cruz-Osorio, Yosuke Mizuno
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引用次数: 1

Abstract

Abstract Accretion of magnetized gas on compact astrophysical objects such as black holes (BHs) has been successfully modeled using general relativistic magnetohydrodynamic (GRMHD) simulations. These simulations have largely been performed in the Kerr metric, which describes the spacetime of a vacuum and stationary spinning BH in general relativity (GR). The simulations have revealed important clues to the physics of accretion flows and jets near the BH event horizon and have been used to interpret recent Event Horizon Telescope images of the supermassive BHs M87* and Sgr A*. The GRMHD simulations require the spacetime metric to be given in horizon-penetrating coordinates such that all metric coefficients are regular at the event horizon. Only a few metrics, notably the Kerr metric and its electrically charged spinning analog, the Kerr–Newman metric, are currently available in such coordinates. We report here horizon-penetrating forms of a large class of stationary, axisymmetric, spinning metrics. These can be used to carry out GRMHD simulations of accretion on spinning, nonvacuum BHs and non-BHs within GR, as well as accretion on spinning objects described by non-GR metric theories of gravity.
静止非真空时空中的广义相对论磁流体力学模拟
利用广义相对论磁流体力学(GRMHD)模拟成功地模拟了致密天体(如黑洞)上磁化气体的吸积。这些模拟大部分是在克尔度规中进行的,克尔度规描述了广义相对论(GR)中真空和静止旋转黑洞的时空。模拟揭示了黑洞事件视界附近吸积流和喷流的重要物理线索,并被用于解释事件视界望远镜最近拍摄的超大质量黑洞M87*和Sgr A*的图像。GRMHD模拟要求时空度规以穿透视界的坐标给出,使得所有度规系数在视界处都是规则的。目前在这样的坐标系中只有几个度量,特别是克尔度量和它的带电自旋类似物克尔-纽曼度量。我们在这里报告了一大类静止的、轴对称的、自旋的度量的水平穿透形式。这些可以用来进行GRMHD模拟旋转吸积,非真空黑洞和GR内的非黑洞,以及由非GR度量引力理论描述的旋转物体的吸积。
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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来源期刊
Astrophysical Journal Letters
Astrophysical Journal Letters ASTRONOMY & ASTROPHYSICS-
CiteScore
14.10
自引率
6.30%
发文量
513
审稿时长
2-3 weeks
期刊介绍: The Astrophysical Journal Letters (ApJL) is widely regarded as the foremost journal for swiftly disseminating groundbreaking astronomical research. It focuses on concise reports that highlight pivotal advancements in the field of astrophysics. By prioritizing timeliness and the generation of immediate interest among researchers, ApJL showcases articles featuring novel discoveries and critical findings that have a profound effect on the scientific community. Moreover, ApJL ensures that published articles are comprehensive in their scope, presenting context that can be readily comprehensible to scientists who may not possess expertise in the specific disciplines covered.
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