A New Relativistic High Temperature Bose-Einstein Condensation
Abstract
We discuss the properties of an ideal relativistic gas of events possessing Bose-Einstein statistics. We find that the mass spectrum of such a system is bounded by μ ≤ m≤ 2M/μ K, where μ is the usual chemical potential, M is an intrinsic dimensional scale parameter for the motion of an event in space-time, and μ K is an additional mass potential of the ensemble. For the system including both particles and antiparticles, with nonzero chemical potential μ , the mass spectrum is shown to be bounded by |μ |≤ m≤ 2M/μ K, and a special type of high-temperature Bose-Einstein condensation can occur. We study this Bose-Einstein condensation, and show that it corresponds to a phase transition from the sector of continuous relativistic mass distributions to a sector in which the boson mass distribution becomes sharp at a definite mass M/μ K. This phenomenon provides a mechanism for the mass distribution of the particles to be sharp at some definite value.
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