Test of Quantum Gravity in Statistical Mechanics

Saurya Das; Mitja Fridman

arXiv:2104.04634·gr-qc·August 4, 2021

Test of Quantum Gravity in Statistical Mechanics

Saurya Das, Mitja Fridman

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TL;DR

This paper investigates how quantum gravity and extra dimensions influence the properties of Bose-Einstein Condensates, suggesting potential experimental detectability of these effects.

Contribution

It introduces a novel analysis of quantum gravity and extra dimensions on BEC critical temperature and ground state fraction, with implications for experimental physics.

Findings

01

Quantum gravity affects BEC critical temperature.

02

Extra dimensions modify condensate properties.

03

Effects may be measurable in current or future experiments.

Abstract

We study Quantum Gravity effects on the density of states in statistical mechanics and its implications for the critical temperature of a Bose Einstein Condensate and fraction of bosons in its ground state. We also study the effects of compact extra dimensions on the critical temperature and the fraction. We consider both neutral and charged bosons in the study and show that the effects may just be measurable in current and future experiments.

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