Thermalization of isolated Bose-Einstein condensate under a PT-symmetric environment

TL;DR

This paper investigates how a PT-symmetric potential affects the thermalization process of a Bose-Einstein Condensate in an optical lattice, revealing controllable dynamics and influence on thermalization.

Contribution

It demonstrates the impact of PT-symmetric potentials on BEC thermalization and shows how they can be used to manipulate BEC dynamics and thermalization behavior.

Findings

PT-symmetric potential influences BEC dynamics

Thermalization observed via density spread in BEC

PT-symmetry allows control over BEC position and duration

Abstract

The postulates of the eigenstate thermalization hypothesis (ETH) express that thermalization occurs due to the individual eigenstate of the system's Hamiltonian. But the ETH put no light on the dynamics that lead toward thermalization. In this paper, we observe the thermalization of a Bose-Einstein Condensate (BEC) confined in an optical lattice potential that is embedded in the harmonic trap. Such optical lattice potential offers local friction to the oscillating BEC. The spread in the temporal density plot of BEC shows the thermalization of the BEC. Moreover, we observe that the presence of a PT-symmetric potential greatly influences the BEC dynamics and the thermalization of the system. The presence of a PT-symmetric potential offers a way to manipulate the mean position of the BEC to the desired location and for a desired length of time.