Kinetic theory of a longitudinally expanding system
Francois Gelis
TL;DR
This paper employs kinetic theory to investigate how quantum fluctuations influence the isotropization process of the pressure tensor in rapidly expanding systems like early-stage heavy ion collision matter.
Contribution
It introduces a kinetic theory framework to analyze the impact of quantum fluctuations on pressure isotropization in longitudinally expanding systems.
Findings
Quantum fluctuations significantly affect pressure isotropization.
Kinetic theory provides insights into early-stage heavy ion collision dynamics.
The study advances understanding of quantum effects in non-equilibrium systems.
Abstract
We use kinetic theory in order to study the role of quantum fluctuations in the isotropization of the pressure tensor in a system subject to fast longitudinal expansion, such as the matter produced in the early stages of a heavy ion collision.
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