弱电离原行星盘中的罗斯比波不稳定性。二、径向 B 场

Can Cui, Zijin Wang
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引用次数: 0

摘要

在本系列第一篇论文的基础上,我们研究了径向磁场和非理想磁流体力学(MHD)效应--特别是欧姆电阻率、霍尔漂移和伏极扩散--对 RWI 不稳定模式的影响。径向场的存在与圆盘的垂直剪切和垂直磁场有关。我们进行了径向全局线性分析,并利用光谱代码(textsc{Dedalus})求解矩阵特征值问题。我们的研究结果表明,径向磁场表现出与垂直磁场类似的行为。在理想的MHD极限中,径向场增强了垂直场在降低生长率方面的作用,在相对较弱的场强(约为$\beta \sim 10^3 - 10^4$)时,生长率开始显著降低,这与原行星盘有关。在非理想 MHD 极限,所有这些非理想效应在足够强时都会导致生长率与流体力学模型中观测到的生长率非常接近。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rossby wave instability in weakly ionized protoplanetary disks. II. radial B-fields
Building on our first paper in this series, we investigate the impact of radial magnetic fields and non-ideal magnetohydrodynamic (MHD) effects - specifically, Ohmic resistivity, Hall drift, and ambipolar diffusion - on RWI unstable modes. The presence of a radial field is linked to the disk's vertical shear and vertical magnetic field. We perform radially global linear analyses and utilize the spectral code \textsc{Dedalus} to solve the matrix eigenvalue problems. Our findings reveal that radial fields exhibit behavior similar to vertical fields. In the ideal MHD limit, radial fields enhance the effect of vertical fields in reducing growth rates, with significant reductions starting at relatively weak field strengths, around $\beta \sim 10^3 - 10^4$, which are relevant to protoplanetary disks. In the non-ideal MHD limit, all three non-ideal effects, when sufficiently strong, cause the growth rates to closely resemble those observed in hydrodynamic models.
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