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Main Authors: Liu, Tong, García-Álvarez, Laura, Tancredi, Giovanna
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.12581
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author Liu, Tong
García-Álvarez, Laura
Tancredi, Giovanna
author_facet Liu, Tong
García-Álvarez, Laura
Tancredi, Giovanna
contents The phenomenon of synchronization, where entities exhibit stable oscillations with aligned frequencies and phases, has been detected in diverse areas of natural science. It plays a crucial role in achieving frequency locking in multiple applications such as microwave communication and signal processing. The study of synchronization in quantum systems has gained significant interest, particularly in developing robust methods for synchronizing distant objects. Here, we demonstrate that synchronization between the boundary sites of one-dimensional generalized Aubry-André-Harper models can be induced through applying dissipation on the central sites. Two types of synchronization, stemming from the topological edge states, are characterized by the off-diagonal or diagonal correlations between the boundary sites. We analyze the relaxation rate to realize the synchronization and its acceleration with bulk dissipation. Remarkably, the synchronous oscillations maintain steady amplitude and frequency in the thermodynamic limit. Moreover, we show that the synchronization is robust against the perturbations in the Hamiltonian and initial states, highlighting its potential for practical implementation in quantum networks.
format Preprint
id arxiv_https___arxiv_org_abs_2409_12581
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Quantum synchronization in one-dimensional topological systems
Liu, Tong
García-Álvarez, Laura
Tancredi, Giovanna
Quantum Physics
The phenomenon of synchronization, where entities exhibit stable oscillations with aligned frequencies and phases, has been detected in diverse areas of natural science. It plays a crucial role in achieving frequency locking in multiple applications such as microwave communication and signal processing. The study of synchronization in quantum systems has gained significant interest, particularly in developing robust methods for synchronizing distant objects. Here, we demonstrate that synchronization between the boundary sites of one-dimensional generalized Aubry-André-Harper models can be induced through applying dissipation on the central sites. Two types of synchronization, stemming from the topological edge states, are characterized by the off-diagonal or diagonal correlations between the boundary sites. We analyze the relaxation rate to realize the synchronization and its acceleration with bulk dissipation. Remarkably, the synchronous oscillations maintain steady amplitude and frequency in the thermodynamic limit. Moreover, we show that the synchronization is robust against the perturbations in the Hamiltonian and initial states, highlighting its potential for practical implementation in quantum networks.
title Quantum synchronization in one-dimensional topological systems
topic Quantum Physics
url https://arxiv.org/abs/2409.12581