Bose-Einstein Condensation in a uniformly accelerated frame

TL;DR

This paper explores how uniform acceleration affects Bose-Einstein Condensation, showing that higher acceleration raises the critical temperature and promotes condensation, linking it to the Unruh temperature.

Contribution

It demonstrates, using conventional methods, that acceleration influences BEC formation, connecting critical temperature to the acceleration magnitude in Rindler space.

Findings

Critical temperature for BEC increases with acceleration.

Higher acceleration facilitates the formation of condensed phase.

Critical temperature is of the order of the Unruh temperature.

Abstract

In this article we have investigated the possibility of Bose-Einstein Condensation (BEC) in a frame undergoing uniform acceleration or in other wards, in Rindler space associated with the uniformly accelerated frame. We have followed a very simple conventional technique generally used in text book level studies. It has been observed that the critical temperature for BEC increases with the increase in magnitude of acceleration of the frame. Typically the critical temperature in an accelerated frame is of the order of the Unruh temperature. Hence we have concluded that the increase in the magnitude of acceleration of the frame facilitates the formation of condensed phase.