Bose-Einstein correlations

Kacper Zalewski(Jagellonian University; Institute of Nuclear; Physics; Cracow)

arXiv:hep-ph/9908472·hep-ph·October 31, 2009

Bose-Einstein correlations

Kacper Zalewski(Jagellonian University, Institute of Nuclear, Physics, Cracow)

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TL;DR

This paper examines how Bose-Einstein correlations influence the multiplicity distributions of identical pions in high-energy collisions, highlighting their significant impact and discussing the conditions for Einstein's condensation.

Contribution

It introduces an analysis of Bose-Einstein correlations' effects on pion multiplicity distributions and discusses the unlikely occurrence of Einstein's condensation in typical high-energy collisions.

Findings

01

Bose-Einstein correlations significantly affect multiplicity distributions.

02

Einstein's condensation is unlikely without 'cold spots' in collisions.

03

Presence of 'cold spots' could enable Bose-Einstein condensation.

Abstract

The effect of Bose-Einstein correlations on multiplicity distributions of identical pions is discussed. It is found that these correlations affect significantly the observed multiplicity distributions, but Einstein's condensation is unlikely to be achieved, unless "cold spots", i.e. regions, where groups of pions with very small relative momenta are produced, occur in high energy heavy-ion collisions.

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