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Main Authors: Xu, Haowei, Wang, Guoqing, Li, Changhao, Tang, Hao, Cappellaro, Paola, Li, Ju
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.14545
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author Xu, Haowei
Wang, Guoqing
Li, Changhao
Tang, Hao
Cappellaro, Paola
Li, Ju
author_facet Xu, Haowei
Wang, Guoqing
Li, Changhao
Tang, Hao
Cappellaro, Paola
Li, Ju
contents Non-Hermiticity and chirality are two fundamental properties known to give rise to various intriguing phenomena. However, the interplay between these properties has been rarely explored. In this work, we bridge this gap by introducing an off-diagonal non-Hermitian spin-spin interaction mediated by chiral phonons. This interaction arises from the spin-selectivity due to the locking between phonon momentum and angular momentum in chiral materials. The resulting non-Hermitian interaction mediated by the vacuum field of chiral phonons can reach the kHz range for electron spins and can be further enhanced by externally driven mechanical waves, potentially leading to observable effects in the quantum regime. Moreover, the long-range nature of phonon-mediated interactions enables the realization of the long-desired non-Hermitian interaction among multiple spins. The effect proposed in this work may have wide-ranging applications in cascaded quantum systems, non-Hermitian many-body physics, and non-Hermitian cooling.
format Preprint
id arxiv_https___arxiv_org_abs_2411_14545
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Non-Hermitian Spin-Spin Interaction Mediated by Chiral Phonons
Xu, Haowei
Wang, Guoqing
Li, Changhao
Tang, Hao
Cappellaro, Paola
Li, Ju
Quantum Physics
Materials Science
Non-Hermiticity and chirality are two fundamental properties known to give rise to various intriguing phenomena. However, the interplay between these properties has been rarely explored. In this work, we bridge this gap by introducing an off-diagonal non-Hermitian spin-spin interaction mediated by chiral phonons. This interaction arises from the spin-selectivity due to the locking between phonon momentum and angular momentum in chiral materials. The resulting non-Hermitian interaction mediated by the vacuum field of chiral phonons can reach the kHz range for electron spins and can be further enhanced by externally driven mechanical waves, potentially leading to observable effects in the quantum regime. Moreover, the long-range nature of phonon-mediated interactions enables the realization of the long-desired non-Hermitian interaction among multiple spins. The effect proposed in this work may have wide-ranging applications in cascaded quantum systems, non-Hermitian many-body physics, and non-Hermitian cooling.
title Non-Hermitian Spin-Spin Interaction Mediated by Chiral Phonons
topic Quantum Physics
Materials Science
url https://arxiv.org/abs/2411.14545