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Main Authors: Zhao, Hao, He, Qiyan, Yang, Fengzhi, Kong, Cui, Cao, Huiyun, Yan, Tianqi, Zhong, Bingrui, Tian, Kaikun, Wang, Jiguo, Shan, Chuanjia, Liu, Jibing
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2602.16391
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author Zhao, Hao
He, Qiyan
Yang, Fengzhi
Kong, Cui
Cao, Huiyun
Yan, Tianqi
Zhong, Bingrui
Tian, Kaikun
Wang, Jiguo
Shan, Chuanjia
Liu, Jibing
author_facet Zhao, Hao
He, Qiyan
Yang, Fengzhi
Kong, Cui
Cao, Huiyun
Yan, Tianqi
Zhong, Bingrui
Tian, Kaikun
Wang, Jiguo
Shan, Chuanjia
Liu, Jibing
contents In this paper, we investigate the enhancement of delocalization and coin-position entanglement in asymmetric discrete-time quantum walks (DTQWs). The asymmetry results from asymmetric coin operations, asymmetric initial states, and asymmetric polarization-dependent losses. By varying these asymmetry factors, the inverse participation ratio and entanglement entropy of the walker are numerically calculated for different coin and loss parameters, both for symmetric and asymmetric initial states. We then experimentally implement a 16-step asymmetric DTQW using a time-multiplexing fiber loop structure. By choosing an asymmetric initial state, both coin-position entanglement and delocalization are simultaneously enhanced under specific coin parameters. Moreover, we observe that with finite asymmetric polarization-dependent loss, the photon probability on the left side decreases significantly, while that on the right side increases and becomes more localized. Interestingly, under specific coin parameters, the entanglement and delocalization exhibit improved robustness against polarization-dependent loss. These results demonstrate that the DTQWs constitute an ideal platform for investigating photonic delocalization and hybrid entanglement.
format Preprint
id arxiv_https___arxiv_org_abs_2602_16391
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Enhancing delocalization and entanglement in asymmetric discrete-time quantum walks
Zhao, Hao
He, Qiyan
Yang, Fengzhi
Kong, Cui
Cao, Huiyun
Yan, Tianqi
Zhong, Bingrui
Tian, Kaikun
Wang, Jiguo
Shan, Chuanjia
Liu, Jibing
Quantum Physics
In this paper, we investigate the enhancement of delocalization and coin-position entanglement in asymmetric discrete-time quantum walks (DTQWs). The asymmetry results from asymmetric coin operations, asymmetric initial states, and asymmetric polarization-dependent losses. By varying these asymmetry factors, the inverse participation ratio and entanglement entropy of the walker are numerically calculated for different coin and loss parameters, both for symmetric and asymmetric initial states. We then experimentally implement a 16-step asymmetric DTQW using a time-multiplexing fiber loop structure. By choosing an asymmetric initial state, both coin-position entanglement and delocalization are simultaneously enhanced under specific coin parameters. Moreover, we observe that with finite asymmetric polarization-dependent loss, the photon probability on the left side decreases significantly, while that on the right side increases and becomes more localized. Interestingly, under specific coin parameters, the entanglement and delocalization exhibit improved robustness against polarization-dependent loss. These results demonstrate that the DTQWs constitute an ideal platform for investigating photonic delocalization and hybrid entanglement.
title Enhancing delocalization and entanglement in asymmetric discrete-time quantum walks
topic Quantum Physics
url https://arxiv.org/abs/2602.16391