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Autori principali: Xu, Zhisheng, Li, Mengxue, Sun, Chunfang, Wang, Gangcheng
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.14394
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author Xu, Zhisheng
Li, Mengxue
Sun, Chunfang
Wang, Gangcheng
author_facet Xu, Zhisheng
Li, Mengxue
Sun, Chunfang
Wang, Gangcheng
contents Cavity-magnon systems, combining magnons and photons, offer a versatile platform for studying quantum entanglement and advancing quantum information science. In this work, we propose a scheme for generating nonreciprocal magnon-magnon entanglement in a hybrid system consisting of two yttrium iron garnet spheres coupled to a spinning whispering-gallery-mode cavity. By leveraging the magnon Kerr nonlinearity and the Sagnac effect arising from the cavity rotation, we show that the entanglement can be substantially enhanced, and the resulting entanglement exhibits pronounced nonreciprocal characteristics. Furthermore, our scheme demonstrates that the entanglement remains robust against thermal noise and persists at bath temperatures up to 100 mK. This work underscores the potential of spinning cavity-magnon systems as a versatile platform for realizing nonreciprocal quantum devices and facilitating the development of quantum technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2605_14394
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Nonreciprocal magnon-magnon entanglement in a spinning cavity-magnon system
Xu, Zhisheng
Li, Mengxue
Sun, Chunfang
Wang, Gangcheng
Quantum Physics
Cavity-magnon systems, combining magnons and photons, offer a versatile platform for studying quantum entanglement and advancing quantum information science. In this work, we propose a scheme for generating nonreciprocal magnon-magnon entanglement in a hybrid system consisting of two yttrium iron garnet spheres coupled to a spinning whispering-gallery-mode cavity. By leveraging the magnon Kerr nonlinearity and the Sagnac effect arising from the cavity rotation, we show that the entanglement can be substantially enhanced, and the resulting entanglement exhibits pronounced nonreciprocal characteristics. Furthermore, our scheme demonstrates that the entanglement remains robust against thermal noise and persists at bath temperatures up to 100 mK. This work underscores the potential of spinning cavity-magnon systems as a versatile platform for realizing nonreciprocal quantum devices and facilitating the development of quantum technologies.
title Nonreciprocal magnon-magnon entanglement in a spinning cavity-magnon system
topic Quantum Physics
url https://arxiv.org/abs/2605.14394