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Main Authors: Cai, Yue, Liu, Jie, Ma, Kang-Jie, Tan, Lei
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.06544
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author Cai, Yue
Liu, Jie
Ma, Kang-Jie
Tan, Lei
author_facet Cai, Yue
Liu, Jie
Ma, Kang-Jie
Tan, Lei
contents Nonreciprocal devices, such as isolator or circulator, are crucial for information routing and processing in quantum networks. Traditional nonreciprocal devices, which rely on the application of bias magnetic fields to break time-reversal symmetry and Lorentz reciprocity, tend to be bulky and require strong static magnetic fields. This makes them challenging to implement in highly integrated large-scale quantum networks. Therefore, we design a multifunctional nonreciprocal quantum device based on the integration and tunable interaction of superconducting quantum circuit. This device can switch between two-port isolator, three-port symmetric circulator, and antisymmetric circulator under the control of external magnetic flux. Furthermore, both isolator and circulator can achieve nearly perfect unidirectional signal transmission. We believe that this scalable and integrable nonreciprocal device could provide new insight for the development of large-scale quantum networks.
format Preprint
id arxiv_https___arxiv_org_abs_2503_06544
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Multifunctional Nonreciprocal Quantum Device Based on Superconducting Quantum Circuit
Cai, Yue
Liu, Jie
Ma, Kang-Jie
Tan, Lei
Quantum Physics
Nonreciprocal devices, such as isolator or circulator, are crucial for information routing and processing in quantum networks. Traditional nonreciprocal devices, which rely on the application of bias magnetic fields to break time-reversal symmetry and Lorentz reciprocity, tend to be bulky and require strong static magnetic fields. This makes them challenging to implement in highly integrated large-scale quantum networks. Therefore, we design a multifunctional nonreciprocal quantum device based on the integration and tunable interaction of superconducting quantum circuit. This device can switch between two-port isolator, three-port symmetric circulator, and antisymmetric circulator under the control of external magnetic flux. Furthermore, both isolator and circulator can achieve nearly perfect unidirectional signal transmission. We believe that this scalable and integrable nonreciprocal device could provide new insight for the development of large-scale quantum networks.
title Multifunctional Nonreciprocal Quantum Device Based on Superconducting Quantum Circuit
topic Quantum Physics
url https://arxiv.org/abs/2503.06544