Dynamical Localization of Bose-Einstein condensate in Optomechanics

Muhammad Ayub; Kashif Ammar Yasir; Farhan Saif

arXiv:1303.2377·quant-ph·April 29, 2015

Dynamical Localization of Bose-Einstein condensate in Optomechanics

Muhammad Ayub, Kashif Ammar Yasir, Farhan Saif

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TL;DR

This paper explains how Bose-Einstein condensates can become dynamically localized in both position and momentum space within an optomechanical system, providing experimental parameters for observation.

Contribution

It introduces a detailed analysis of dynamical localization in BECs within optomechanical systems, considering modulation strength and effective Planck's constant.

Findings

01

Dynamical localization occurs in both position and momentum space.

02

Experimental parameters are proposed for laboratory observation.

03

Analysis includes effects of modulation strength and effective Planck's constant.

Abstract

We explain dynamical localization of Bose-Einstein condensate (BEC) in optomechanics both in position and in momentum space. The experimentally realizable optomechanical system is a Fabry-Perot cavity with one moving end mirror and driven by single mode standing field. In our study we analyze variations in modulation strength and effective Plank's constant. Keeping in view present day experimental advances we provide set of parameters to observe the phenomenon in laboratory.

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