热星风三维斑模型的离散吸收分量

F. A. Driessen, N. Kee
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引用次数: 1

摘要

高温大质量恒星的风在大小空间尺度上都是可变的。这种风变的一个特殊情况是“离散吸收分量”(DACs),它在紫外共振谱线中表现为向外移动的密度特征。这种dac被认为是由恒星风中的大规模螺旋形密度结构引起的。我们考虑了旋转热星风的新的三维辐射-流体动力学模型,并研究了由于恒星表面局部(伪)磁斑导致的共旋转螺旋结构的出现。随后,流体动力学模型用于检索由三维短特征辐射传输代码创建的合成紫外光谱中的DAC光谱特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Discrete Absorption Components from 3-D spot models of hot star winds
Abstract The winds of hot, massive stars are variable from processes happening on both large and small spatial scales. A particular case of such wind variability is ‘discrete-absorption components’ (DACs) that manifest themselves as outward moving density features in UV resonance line spectra. Such DACs are believed to be caused by large-scale spiral-shaped density structures in the stellar wind. We consider novel 3-D radiation-hydrodynamic models of rotating hot star winds and study the emergence of co-rotating spiral structures due to a local (pseudo-)magnetic spot on the stellar surface. Subsequently, the hydrodynamic models are used to retrieve DAC spectral signatures in synthetic UV spectra created from a 3-D short-characteristics radiative transfer code.
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