Statistical Thermal Models in High-Energy Nuclear Physics

Ludwik Turko

arXiv:0901.2357·hep-ph·January 19, 2009

Statistical Thermal Models in High-Energy Nuclear Physics

Ludwik Turko

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TL;DR

This paper explores thermal models in high-energy nuclear physics, focusing on critical behavior signatures of hadronic matter and analyzing volume effects and canonical suppression factors.

Contribution

It provides new calculations of canonical suppression factors and insights into volume effects in thermal models of hadronic matter.

Findings

01

Identification of critical behavior signatures in thermal models

02

Calculation of canonical suppression factors

03

Analysis of volume effects on hadronic matter

Abstract

An examination of thermal models leads to the important signature of the expected critical behavior of the hadronic matter. A presentation is mainly devoted to the final volume effects. Canonical suppression factor are calculated.

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Taxonomy

TopicsHigh-Energy Particle Collisions Research · Statistical Mechanics and Entropy · Theoretical and Computational Physics