Magnetoacoustic waves in a partially ionized astrophysical plasma with the thermal misbalance: A two-fluid approach

N. Molevich, S. Pichugin, D. Riashchikov
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Abstract

We consider the propagation of magnetoacoustic (MA) and acoustic waves of various frequency ranges in a partially ionized plasma at an arbitrary angle to the magnetic field, taking into account the influence of heating, radiative, and thermo-conductive cooling, as well as ion-neutral collisions. A dispersion equation that describes the evolution of nine modes was obtained in a compact mathematical form using the two-fluid model. The number and type of propagating waves (modified fast and slow MA waves, MA waves in the ion component, acoustic waves in the neutral component, as well as isothermal MA and isothermal acoustic waves) vary in different frequency ranges depending on the parameters of the medium. Analytical expressions are found for the speed and damping rates of all these propagating waves, and it is shown how dispersion and damping are formed by three processes: thermal misbalance, ion-neutral collisions, and thermal conductivity. Comparison of analytical calculations of the velocity and damping rates of MA waves with the numerical solution of the dispersion relation under conditions characteristic of the low solar atmosphere and prominences showed high accuracy of the obtained analytical expressions. The strong influence of thermal misbalance caused by gasdynamic perturbations on the speed and damping rate of modified magnetoacoustic waves in a strongly coupled region is shown as well.
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部分电离天体物理等离子体中的磁声波与热失衡:双流体方法
我们考虑了加热、辐射和热传导冷却以及离子-中性碰撞的影响,研究了与磁场成任意角度的部分电离等离子体中各种频率范围的磁声波和声波的传播。利用双流体模型,以紧凑的数学形式获得了描述九种模式演变的弥散方程。传播波的数量和类型(修正的快速和慢速 MA 波、离子分量中的 MA 波、中性分量中的声波以及等温 MA 波和等温声波)根据介质参数的不同而在不同频率范围内变化。我们找到了所有这些传播波的速度和阻尼率的分析表达式,并展示了热失衡、离子-中性碰撞和热导率这三个过程是如何形成色散和阻尼的。在低太阳大气层和突出物的特征条件下,对 MA 波的速度和阻尼率的分析计算与色散关系的数值解进行了比较,结果表明所获得的分析表达式具有很高的准确性。气体动力扰动引起的热失衡对强耦合区域中修正磁声波的速度和阻尼率也有很大影响。
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