Quantum dynamics of PT-symmetrically kicked particle confined in a 1D   box

J. Yusupov; S. Rakhmanov; D. U. Matrasulov; H. Susanto

arXiv:1807.10966·quant-ph·January 15, 2019

Quantum dynamics of PT-symmetrically kicked particle confined in a 1D box

J. Yusupov, S. Rakhmanov, D. U. Matrasulov, H. Susanto

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TL;DR

This paper investigates the quantum dynamics of a particle in a 1D box subjected to PT-symmetric delta-kicking, analyzing energy evolution, PT-symmetry breaking, and potential experimental realizations.

Contribution

It introduces a novel model of a PT-symmetric kicked quantum particle in a confined 1D box and explores its dynamical properties and symmetry-breaking behavior.

Findings

01

PT-symmetry breaks at specific non-Hermitian kicking parameters

02

Average kinetic energy varies with time and kicking parameters

03

Potential experimental realization of the PT-symmetric kicked system

Abstract

We study quantum particle dynamics in a box and driven by PT-symmetric, delta-kicking complex potential. Such dynamical characteristics as the average kinetic energy as function of time and quasi-energy at different values of the kicking parameters. Breaking of the PT-symmetry at certain values of the non-Hermitian kicking parameter is shown. Experimental realization of the model is also discussed.

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