相对论多流体系统的热力学

Q2 Physics and Astronomy Letters in High Energy Physics Pub Date : 2019-06-04 DOI:10.31526/lhep.1.2020.141

B. Osano

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引用次数: 2

摘要

本文推广了M的单流体相对论不可逆热力学理论{u}ller}，和｛\it Israel｝和｛\ it Stewart｝（以下简称｛MIS｝理论），将其应用于具有固有物种相互作用的多流体系统。这在一个双流体玩具模型中得到了说明，其中有效的复数4速度起着主要动力学参数的作用。我们发现，居住在这个宇宙的真实部分的观测者会注意到，他们对宇宙的了解是用真实的而不是想象的量来参数化的，不足以完全确定总能量密度、压力或熵等性质。事实上，这样的观测者会推断出一些负能量的存在，这些负能量会影响他们所感知的真实宇宙的膨胀。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Thermodynamics of Relativistic Multi-Fluid Systems

This article extends the single-fluid relativistic irreversible thermodynamics theory of {\it M{u}ller}, {\it Israel} and {\it Stewart} (hereafter the {MIS} theory) to a multi-fluid system with inherent species interactions. This is illustrated in a two-fluid toy-model where an effective complex 4-velocity plays the role of a primary dynamical parameter. We find that an observer who resides in the {\it real}-part of this universe will notice that their knowledge of the universe parametrized using {\it real}, rather than {\it imaginary}, quantities are insufficient to fully determine properties such as the total energy density, pressure or entropy, In fact, such an observer will deduce the existence of some negative energy that affects the expansion of their perceived {\it real} universe.

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