Light scattering test regarding the relativistic nature of heat

TL;DR

This paper investigates how heat behaves in relativistic fluids by analyzing the Rayleigh-Brillouin spectrum, predicting modifications in the Rayleigh peak due to relativistic effects on heat flux.

Contribution

It provides a theoretical calculation of the dynamic structure factor in relativistic fluids and predicts modifications in the Rayleigh peak related to Eckart's thermodynamics.

Findings

Modified width of the Rayleigh peak predicted

Coupling of acceleration with heat flux analyzed

Relativistic effects on heat flux estimated

Abstract

The dynamic structure factor of a simple relativistic fluid is calculated. The coupling of acceleration with the heat flux present in Eckart's version of irreversible relativistic thermodynamics is examined using the Rayleigh-Brillouin spectrum of the fluid. A modification of the width of the Rayleigh peak associated to Eckart's picture of the relativistic nature of heat is predicted and estimated.