Ambipolar Diffusion with a Polytropic Equation of State

IF 3.3 3区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Publications of the Astronomical Society of the Pacific Pub Date : 2024-02-06 DOI:10.1088/1538-3873/ad1f3d

Blake J. Bottesi, Marco Fatuzzo, Lisa Holden, Kendra Herweck

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Abstract

Ambipolar diffusion is the mechanism believed to be responsible for the loss of magnetic support in dense molecular cloud cores, and is therefore likely to play a key role in the star formation process. As such, this mechanism has been studied extensively both semianalytically and numerically. We build upon this existing body of work by considering a one-dimensional self-gravitating gas with a polytropic equation of state (P ∝ ρ ^ϵ), and consider cases that range from softer (ϵ < 1) to stiffer (ϵ > 1) than isothermal. Our results indicate that the diffusion time is not very sensitive to the polytropic exponent ϵ when stiffer than isothermal, but is sensitive to the exponent when softer than isothermal. Additionally, the presence of magnetic and density fluctuations causes the ambipolar diffusion process to speed up, with the shortest diffusion times obtained for gases with large initial magnetic to gas pressure ratios and fairly soft equations of state. However, the diffusion time starts to increase significantly for ϵ ≲ 0.5, indicating that such soft equations of state are inconsistent with observations.

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带多向性状态方程的双极扩散

常压扩散被认为是致密分子云核中磁力支持丧失的机制，因此很可能在恒星形成过程中起到关键作用。因此，对这一机制进行了广泛的半解析和数值研究。我们在现有研究的基础上，考虑了具有多向态方程（P∝ρϵ）的一维自重力气体，并考虑了比等温线更软（ϵ <1）到更硬（ϵ >1）的情况。我们的结果表明，在比等温线更硬的情况下，扩散时间对多向性指数ϵ并不十分敏感，但在比等温线更软的情况下，扩散时间对该指数十分敏感。此外，磁波动和密度波动的存在会导致安培极扩散过程加速，对于初始磁压与气体压强比大且状态方程相当软的气体，扩散时间最短。然而，当 ϵ ≲ 0.5 时，扩散时间开始显著增加，这表明这种软状态方程与观测结果不一致。

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来源期刊

Publications of the Astronomical Society of the Pacific 地学天文-天文与天体物理

CiteScore

6.70

自引率

5.70%

发文量

103

审稿时长

4-8 weeks

期刊介绍： The Publications of the Astronomical Society of the Pacific (PASP), the technical journal of the Astronomical Society of the Pacific (ASP), has been published regularly since 1889, and is an integral part of the ASP''s mission to advance the science of astronomy and disseminate astronomical information. The journal provides an outlet for astronomical results of a scientific nature and serves to keep readers in touch with current astronomical research. It contains refereed research and instrumentation articles, invited and contributed reviews, tutorials, and dissertation summaries.