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Autori principali: Yin, Bin, Wang, Jie, Peng, Mei-Yu, Zhang, Qian, Wang, Deng, Lu, Tian-Xiang, Wei, Ke, Jing, Hui
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2502.05420
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author Yin, Bin
Wang, Jie
Peng, Mei-Yu
Zhang, Qian
Wang, Deng
Lu, Tian-Xiang
Wei, Ke
Jing, Hui
author_facet Yin, Bin
Wang, Jie
Peng, Mei-Yu
Zhang, Qian
Wang, Deng
Lu, Tian-Xiang
Wei, Ke
Jing, Hui
contents Molecular cavity optomechanics (COM), characterized by remarkably efficient optomechanical coupling enabled by a highly localized light field and ultra-small effective mode volume, holds significant promise for advancing applications in quantum science and technology. Here, we study optomechanically induced transparency and the associated group delay in a hybrid molecular COM system. We find that even with an extremely low optical quality factor, an obvious transparency window can appear, which is otherwise unattainable in a conventional COM system. Furthermore, by varying the ports of the probe light, the optomechanically induced transparency or absorption can be achieved, along with corresponding slowing or advancing of optical signals. These results indicate that our scheme provides a new method for adjusting the storage and retrieval of optical signals in such a molecular COM device.
format Preprint
id arxiv_https___arxiv_org_abs_2502_05420
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Molecular optomechanically-induced transparency
Yin, Bin
Wang, Jie
Peng, Mei-Yu
Zhang, Qian
Wang, Deng
Lu, Tian-Xiang
Wei, Ke
Jing, Hui
Optics
Molecular cavity optomechanics (COM), characterized by remarkably efficient optomechanical coupling enabled by a highly localized light field and ultra-small effective mode volume, holds significant promise for advancing applications in quantum science and technology. Here, we study optomechanically induced transparency and the associated group delay in a hybrid molecular COM system. We find that even with an extremely low optical quality factor, an obvious transparency window can appear, which is otherwise unattainable in a conventional COM system. Furthermore, by varying the ports of the probe light, the optomechanically induced transparency or absorption can be achieved, along with corresponding slowing or advancing of optical signals. These results indicate that our scheme provides a new method for adjusting the storage and retrieval of optical signals in such a molecular COM device.
title Molecular optomechanically-induced transparency
topic Optics
url https://arxiv.org/abs/2502.05420