太阳日冕中电子密度和温度描述的热力学解释

D. Berdichevsky, J.M.G. G'omez, L. Vieira, A. D. Lago
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引用次数: 0

摘要

本文从全球平衡状态下的磁流体物理出发,给出了codec模型的热力学解释及其对电子密度和温度的预测。在理想磁流体力学(MHD)的背景下,热力学解释与具有抗磁性的磁物质介质的模型一致。进一步注意到,codt预测了太阳日冕电子气体的多向反常指数。研究表明,这种不寻常的特征与假设低静止太阳日冕是一种磁物质状态是一致的,它具有一种潜在的结构,这种结构先前被描述为解释在给定温度和压力下由气体分子的固体表面的二维吸附过程。在我们的例子中,我们假设我们存在一个三维的类似的聚结过程,即热力学平衡中的Langmuir非晶晶格。通过这种方法,我们定量地确定了在2008年至2009年几个月的太阳活动极小期的大部分静止日冕的介质磁导率的本构性质、非色散声速、1.1至1.3$R_{\odot}$的预期平衡时间和能量密度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermodynamic Interpretation of Electron Density and Temperature Description in the Solar Corona
We reach a thermodynamic interpretation of CODET model and its prediction to electrons density and temperature grounded on the physics of hydro magnetism in global equilibrium. The thermodynamic interpretation finds consistency with the model with a magneto-matter medium that is diamagnetic, in the context of ideal magnetohydrodynamics (MHD). It is further noticed that the CODET predicts a polytropic anomalous index for the electron gas of the Sun's corona. It is shown that this unusual characteristic is consistent with assuming that the low quiescent solar corona is a magneto-matter state which possesses an underlying structure that was earlier described to explain the 2-D adsorption process by a surface of a solid of molecules of a gas at a given temperature and pressure by Langmuir. In our case, it is assumed that we are in the presence of a 3-D similar coalescence process, i.e. a Langmuir amorphous lattice in thermodynamic equilibrium. In this way, constitutive properties of the medium magnetic permeability, the non-dispersive acoustic speed, the expected equilibration time for the 1.1 to 1.3$R_{\odot}$, and energy density are determined quantitatively for most of the quiescent corona in a near solar minimum that extends for several months from 2008 to 2009.
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