行星在带磁化风的圆盘中打开间隙

V. Elbakyan, Yinhao Wu, S. Nayakshin, G. Rosotti
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引用次数: 2

摘要

当行星的质量超过一个缺口打开质量Mgap时,原行星盘就会打开一个很深的缺口。我们利用一维和二维模拟研究了由MHD盘风驱动的角动量输运的行星盘隙打开。我们通过一个类似于湍流粘度αv的无量纲参数αdw来参数化MHD圆盘风角动量输运效率。我们发现磁化风在抵消行星潮汐扭矩方面比湍流效率低得多。对于具有天体物理真实值αdw的圆盘,Mgap总是由剩余的圆盘湍流决定,并且比通常得到的粘性圆盘小几到十倍。我们引入了一个适用于任意αv和αdw值的间隙打开判据,这可能对行星形成种群的合成有用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gap opening by planets in discs with magnetised winds
Abstract Planets open deep gaps in protoplanetary discs when their mass exceeds a gap opening mass, Mgap. We use one- and two-dimensional simulations to study planet gap opening in discs with angular momentum transport powered by MHD disc winds. We parameterise the efficiency of the MHD disc wind angular momentum transport through a dimensionless parameter αdw, which is an analogue to the turbulent viscosity αv. We find that magnetised winds are much less efficient in counteracting planet tidal torques than turbulence is. For discs with astrophysically realistic values of αdw, Mgap is always determined by the residual disc turbulence, and is a factor of a few to ten smaller than usually obtained for viscous discs. We introduce a gap opening criterion applicable for any values of αv and αdw that may be useful for planet formation population synthesis.
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