Abstract
The role of repulsive interactions in statistical systems of Bose particles is investigated. Three different phenomenological frameworks are considered: a mean-field model, an excluded volume model, and a model with a medium-dependent effective mass. All three models are tuned to yield similar equations of state, with only minor deviations from the ideal Bose gas at small chemical potentials. Our analysis indicates, however, that these models lead to qualitatively different results for the Bose-Einstein condensation phenomenon. We discuss the different aspects of this phenomenon, namely, an onset of the Bose-Einstein condensation, particle number fluctuations, and a behavior of the Bose condensate. The obtained results can be helpful for interpreting the lattice QCD data at small temperature and large isospin chemical potential and the data on multiple pion production in high-energy nuclear collisions.
Highlights
The Bose-Einstein condensation (BEC) in the ideal gas of bosons was predicted many years ago [1,2] and later experimentally confirmed for cold atomic gases in magnetic traps [3,4,5,6]
All three models are tuned to yield similar equations of state, with only minor deviations from the ideal Bose gas at small chemical potentials. That these models lead to qualitatively different results for the Bose-Einstein condensation phenomenon
An increase of the temperature of the onset of BEC due to the repulsive interactions when compared with ideal Bose gas (Id-BG) at the same density was found
Summary
The Bose-Einstein condensation (BEC) in the ideal gas of bosons was predicted many years ago [1,2] and later experimentally confirmed for cold atomic gases in magnetic traps [3,4,5,6] This effect appears to be common for different systems of free or interacting bosons, ranging from condensed matter physics to high-energy nuclear physics and astrophysics An increase of the temperature of the onset of BEC due to the repulsive interactions when compared with ideal Bose gas (Id-BG) at the same density was found. This conclusion is not of general validity, as will be shown in the present paper.
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