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Open Quantum Systems Decoherence

Engineering imaginary stark ladder in a dissipative lattice: passive mathcal{PT} symmetry, K symmetry and localized damping

arXiv
Authors: Yu Zhang, Shu Chen

Year

2022

Paper ID

58336

Status

Preprint

Abstract Read

~2 min

Abstract Words

187

Citations

N/A

Abstract

We study an imaginary stark ladder model and propose a realization of the model in a dissipative chain with linearly increasing site-dependent dissipation strength. Due to the existence of a K-symmetry and passive mathcal{PT} symmetry, the model exhibits quite different feature from its Hermitian counterpart. With the increase of dissipation strength, the system first undergoes a passive mathcal{PT}-symmetry breaking transition, with the shifted eigenvalues changing from real to complex, and then a K-symmetry restoring transition, characterized by the emergence of pure imaginary spectrum with equal spacing. Accordingly, the eigenstates change from mathcal{PT}-unbroken extended states to the mathcal{PT}-broken states, and finally to stark localized states. In the framework of the quantum open system governed by Lindblad equation with linearly increasing site-dependent dissipation, we unveil that the dynamical evolution of single particle correlation function is governed by the Hamiltonian of the imaginary stark ladder model. By studying the dynamical evolution of the density distribution under various initial states, we demonstrate that the damping dynamics displays distinct behaviors in different regions. A localized damping is observed in the strong dissipation limit.

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  • This paper contributes to the Open Quantum Systems & Decoherence research area in the Quantum Articles archive.
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  • We study an imaginary stark ladder model and propose a realization of the model in a dissipative chain with linearly increasing site-dependent dissipation strength.

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