Thermal vorticity production in relativistic dissipative fluids
Yang-guang Yang, Shi Pu
TL;DR
This paper investigates how dissipative effects in relativistic fluids influence thermal vorticity production and circulation, showing that traditional conservation laws are modified in such systems.
Contribution
It introduces a computation of thermal vorticity circulation in dissipative relativistic fluids, highlighting the impact of dissipation on circulation conservation.
Findings
Dissipative effects modify the relativistic Kelvin circulation theorem.
Thermal vorticity circulation may not be conserved in dissipative fluids.
Dissipation influences the evolution of thermal vorticity in relativistic systems.
Abstract
We have computed the circulation integrations of thermal vorticity with and without charged currents in dissipative fluids. We find that the relativistic Kelvin circulation theorem will be modified by the dissipative effects, therefore, the circulation integrations of thermal vorticity may not be conserved during the fluid evolution.
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