自洽磁旋转中子星的广义相对论电阻磁流体动力学模拟

arXiv - PHYS - General Relativity and Quantum Cosmology Pub Date : 2024-09-16 DOI:arxiv-2409.10508

Patrick Chi-Kit Cheong, Antonios Tsokaros, Milton Ruiz, Fabrizio Venturi, Juno Chun Lung Chan, Anson Ka Long Yip, Koji Uryu

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引用次数: 0

摘要

我们首次提出了具有混合极性磁场和环形磁场的自洽旋转中子星的广义相对论电阻磁流体力学模拟。具体地说，我们研究了电阻率在中子星长达 100 毫秒的动力学演化过程中的作用及其对中子星准平衡构型的影响。我们的研究结果表明，电阻率会显著影响磁流体力学不稳定性的发展，从而导致明显不同的磁场几何形状。此外，电阻率还能抑制这些不稳定性的增长，从而降低发射引力波的振幅。尽管磁场几何形状各不相同，但在我们研究的模型中，整个模拟过程中的环形磁场能量比始终为 9:1。

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General-relativistic resistive-magnetohydrodynamics simulations of self-consistent magnetized rotating neutron stars

We present the first general-relativistic resistive magnetohydrodynamics simulations of self-consistent, rotating neutron stars with mixed poloidal and toroidal magnetic fields. Specifically, we investigate the role of resistivity in the dynamical evolution of neutron stars over a period of up to 100 ms and its effects on their quasi-equilibrium configurations. Our results demonstrate that resistivity can significantly influence the development of magnetohydrodynamic instabilities, resulting in markedly different magnetic field geometries. Additionally, resistivity suppresses the growth of these instabilities, leading to a reduction in the amplitude of emitted gravitational waves. Despite the variations in magnetic field geometries, the ratio of poloidal to toroidal field energies remains consistently 9:1 throughout the simulations, for the models we investigated.

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arXiv - PHYS - General Relativity and Quantum Cosmology

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