Exponential localization of moving-end mirror in an optomechanical system

TL;DR

This paper investigates how a moving mirror in an optomechanical system exhibits dynamical localization in position and momentum space, analyzing its dependencies and proposing feasible experimental parameters.

Contribution

It demonstrates the occurrence of dynamical localization in an optomechanical system with a moving mirror and discusses its parametric dependencies and experimental feasibility.

Findings

Dynamical localization occurs in both position and momentum space.

Localization depends on specific parametric conditions.

Proposed parameters make experimental observation feasible.

Abstract

We discuss the dynamics of moving end mirror of an optomechanical system that consists of a Fabry-Perot cavity loaded with dilute condensate and driven by a single mode optical field. It is shown that quantum mechanical phenomenon of dynamical localization occurs both in position and momentum space for moving end mirror in the system. The parametric dependencies of dynamical localization are discussed. We also provide a set of parameters which makes this phenomenon experimentally feasible.