Related papers: Landau-Zener-Stückelberg interference in edge state pumping

Landau-Zener-Stückelberg interference in edge state pumping

URL: http://arxiv.org/abs/2408.01629v2
Date: Tue, 12 Nov 2024 13:17:47 GMT
Title: Landau-Zener-Stückelberg interference in edge state pumping
Authors: Y. Liu, Xiaoshui Lin, Ming Gong,
Abstract summary: Adiabatic edge state pumping (ESP) in one dimensional model has important applications in topological phase transition and quantum simulation. We show that this process involves two non-adiabatic points during the transition between the edge state and bulk state. In a relatively long chain with weak disorder, the ESP can break down due to the anti-crossing of the edge state and the bulk edge states.
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Abstract: The adiabatic edge state pumping (ESP) in one dimensional model, which has important applications in topological phase transition and quantum simulation, has been widely performed in both theories and experiments. This phenomenon has been observed in some systems with sizes $L = 9 - 100$, and it seems that due to the topological protection, the ESP can be survived even in the presence of weak random potential. Yet the fundamental issues of adiabaticity for this process have not been clarified. In this paper, we revisit this problem and show that this process involves two non-adiabatic points during the transition between the edge state and bulk state, yielding non-abadiatic physics. As a result, the ESP can be described by the Landau-Zener-St\"{u}ckelberg (LZS) interference process, in which the relative phase between the edge state and the bulk state determine the fate of the edge state during pumping. Furthermore, in a relatively long chain with weak disorder, the ESP can break down due to the anti-crossing of the edge state and the bulk edge states. We unveil these physics in terms of non-adiabaticity. The new mechanisms for ESP unveiled in this work is readily accessible in experiment, and shall therefore offer a down-to-earth platform for the intriguing LZS dynamics in terms of edge states.

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