Relaxation and correlation times of nonequilibrium multiparticle systems

Maciej Rybczynski; Grzegorz Wilk; Zbigniew Wlodarczyk

arXiv:2103.11126·hep-ph·July 7, 2021

Relaxation and correlation times of nonequilibrium multiparticle systems

Maciej Rybczynski, Grzegorz Wilk, Zbigniew Wlodarczyk

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TL;DR

This paper investigates how relaxation and correlation times evolve with energy in nonequilibrium multiparticle systems, providing insights into the hadronization process and its experimental observations.

Contribution

It analyzes the energy dependence of relaxation and correlation times in hadronizing systems, offering a new perspective on their role in describing nonequilibrium dynamics.

Findings

01

Relaxation and correlation times vary with energy in hadronizing systems.

02

The study links these times to the history of the hadronization process.

03

Results help improve models of nonequilibrium multiparticle dynamics.

Abstract

Relaxation and correlation times are two parameters used frequently in approximate descriptions of the time development of hadronizing system from some initial state towards distributions observed experimentally. Chosen to reproduce the experimental results they represent, in a sense, the history of the hadronization process. The analysis of their changes with energy is the subject of our work.

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