Related papers: Exact new mobility edges between critical and localized states

Exact new mobility edges between critical and localized states

URL: http://arxiv.org/abs/2212.14285v3
Date: Sun, 20 Aug 2023 07:05:05 GMT
Title: Exact new mobility edges between critical and localized states
Authors: Xin-Chi Zhou, Yongjian Wang, Ting-Fung Jeffrey Poon, Qi Zhou and Xiong-Jun Liu
Abstract summary: disorder systems host three types of fundamental quantum states, known as the extended, localized, and critical states. We propose a class of exactly solvable models which host a novel type of exact mobility edges (MEs) separating localized states from robust critical states. This work may pave a way to precisely explore the critical states and new ME physics with experimental feasibility.
Score: 5.740412422102932
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The disorder systems host three types of fundamental quantum states, known as the extended, localized, and critical states, of which the critical states remain being much less explored. Here we propose a class of exactly solvable models which host a novel type of exact mobility edges (MEs) separating localized states from robust critical states, and propose experimental realization. Here the robustness refers to the stability against both single-particle perturbation and interactions in the few-body regime. The exactly solvable one-dimensional models are featured by quasiperiodic mosaic type of both hopping terms and on-site potentials. The analytic results enable us to unambiguously obtain the critical states which otherwise require arduous numerical verification including the careful finite size scalings. The critical states and new MEs are shown to be robust, illustrating a generic mechanism unveiled here that the critical states are protected by zeros of quasiperiodic hopping terms in the thermodynamic limit. Further, we propose a novel experimental scheme to realize the exactly solvable model and the new MEs in an incommensurate Rydberg Raman superarray. This work may pave a way to precisely explore the critical states and new ME physics with experimental feasibility.

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