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Hauptverfasser: Lippo, Zina, Pereira, Elizabeth Louis, Lado, Jose L., Chen, Guangze
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2409.17202
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author Lippo, Zina
Pereira, Elizabeth Louis
Lado, Jose L.
Chen, Guangze
author_facet Lippo, Zina
Pereira, Elizabeth Louis
Lado, Jose L.
Chen, Guangze
contents Topological phases of matter provide a flexible platform to engineer unconventional quantum excitations in quantum materials. Beyond single particle topological matter, in systems with strong quantum many-body correlations, many-body effects can be the driving force for non-trivial topology. Here, we propose a one-dimensional engineered Kondo lattice where the emergence of topological excitations is driven by collective many-body Kondo physics. We first show the existence of topological zero modes in this system by solving the interacting model with tensor networks, and demonstrate their robustness against disorder. To unveil the origin of the topological zero modes, we analyze the associated periodic Anderson model showing that it can be mapped to a topological non-Hermitian model, enabling rationalizing the origin of the topological zero modes. We finally show that the topological invariant of the many-body Kondo lattice can be computed with a correlation matrix pumping method directly with the exact quantum many-body wavefunction. Our results provide a strategy to engineer topological Kondo insulators, highlighting quantum magnetism as a driving force in engineering topological matter.
format Preprint
id arxiv_https___arxiv_org_abs_2409_17202
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Topological zero modes and correlation pumping in an engineered Kondo lattice
Lippo, Zina
Pereira, Elizabeth Louis
Lado, Jose L.
Chen, Guangze
Strongly Correlated Electrons
Topological phases of matter provide a flexible platform to engineer unconventional quantum excitations in quantum materials. Beyond single particle topological matter, in systems with strong quantum many-body correlations, many-body effects can be the driving force for non-trivial topology. Here, we propose a one-dimensional engineered Kondo lattice where the emergence of topological excitations is driven by collective many-body Kondo physics. We first show the existence of topological zero modes in this system by solving the interacting model with tensor networks, and demonstrate their robustness against disorder. To unveil the origin of the topological zero modes, we analyze the associated periodic Anderson model showing that it can be mapped to a topological non-Hermitian model, enabling rationalizing the origin of the topological zero modes. We finally show that the topological invariant of the many-body Kondo lattice can be computed with a correlation matrix pumping method directly with the exact quantum many-body wavefunction. Our results provide a strategy to engineer topological Kondo insulators, highlighting quantum magnetism as a driving force in engineering topological matter.
title Topological zero modes and correlation pumping in an engineered Kondo lattice
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2409.17202