Markovian diffusion approach to the relativistic ideal gas system
Ryszard Zygad{\l}o
TL;DR
This paper uses a Markovian kinetic approach to analyze the relativistic ideal gas system, revealing limitations in the traditional thermodynamic interpretation in moving frames.
Contribution
It introduces a Brownian motion-based Markovian framework to study relativistic gases, highlighting issues with standard thermodynamic averages in moving reference frames.
Findings
Traditional thermodynamic averages are not valid in moving frames.
Brownian motion provides a consistent kinetic description.
Identifies limitations of existing relativistic thermodynamics.
Abstract
It is shown that the usual identification of certain averages with the relativistic thermodynamical functions is not possible in the moving reference frame description. The Brownian motion approach is used as the Markovian kinetic description of the relativistic ideal gas system.
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Taxonomy
TopicsOptical properties and cooling technologies in crystalline materials · Material Science and Thermodynamics · Gas Dynamics and Kinetic Theory