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Main Authors: Xiao, Han, Zeng, Qi-Bo
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.19430
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author Xiao, Han
Zeng, Qi-Bo
author_facet Xiao, Han
Zeng, Qi-Bo
contents We study the one-dimensional non-Hermitian lattices with staggered onsite modulations and nonreciprocal hopping up to the next-nearest-neighboring (NNN) sites. Due to the NNN nonreciprocity, the non-Hermitian skin effect (NHSE) in the system under open boundary conditions (OBC) can be energy dependent, and there will be NHSE edges in the eigenenergy spectrum, which separates the eigenstates localized at the opposite ends of the lattice. We find that the interplay between the nonreciprocal hopping and onsite modulations can reverse the direction of the skin effect and modify the position of the NHSE edge. Moreover, by tuning the system parameters, some of the eigenstates under OBC will become fully extended with the corresponding eigenenergies being imaginary under both open and periodic boundary conditions. Thus, the extended states can coexist with the NHSH in the same system. The NHSE can even be completely dissolved with all the eigenstates being extended when the modulation is imaginary. Our work unveils the intricate interplay between onsite modulations and nonreciprocal hopping in non-Hermitian systems.
format Preprint
id arxiv_https___arxiv_org_abs_2403_19430
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Coexistence of non-Hermitian skin effect and extended states in one-dimensional nonreciprocal lattices
Xiao, Han
Zeng, Qi-Bo
Mesoscale and Nanoscale Physics
Quantum Physics
We study the one-dimensional non-Hermitian lattices with staggered onsite modulations and nonreciprocal hopping up to the next-nearest-neighboring (NNN) sites. Due to the NNN nonreciprocity, the non-Hermitian skin effect (NHSE) in the system under open boundary conditions (OBC) can be energy dependent, and there will be NHSE edges in the eigenenergy spectrum, which separates the eigenstates localized at the opposite ends of the lattice. We find that the interplay between the nonreciprocal hopping and onsite modulations can reverse the direction of the skin effect and modify the position of the NHSE edge. Moreover, by tuning the system parameters, some of the eigenstates under OBC will become fully extended with the corresponding eigenenergies being imaginary under both open and periodic boundary conditions. Thus, the extended states can coexist with the NHSH in the same system. The NHSE can even be completely dissolved with all the eigenstates being extended when the modulation is imaginary. Our work unveils the intricate interplay between onsite modulations and nonreciprocal hopping in non-Hermitian systems.
title Coexistence of non-Hermitian skin effect and extended states in one-dimensional nonreciprocal lattices
topic Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2403.19430