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Main Authors: Song, Qi, Li, Hongjing, Yu, Chengxi, Wang, Ding, Wu, Xingyu, Liu, Zhiqiang, Huang, Jingzheng, Wang, Chuan, Zeng, Guihua
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.10229
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author Song, Qi
Li, Hongjing
Yu, Chengxi
Wang, Ding
Wu, Xingyu
Liu, Zhiqiang
Huang, Jingzheng
Wang, Chuan
Zeng, Guihua
author_facet Song, Qi
Li, Hongjing
Yu, Chengxi
Wang, Ding
Wu, Xingyu
Liu, Zhiqiang
Huang, Jingzheng
Wang, Chuan
Zeng, Guihua
contents Optical whispering gallery mode microcavity acoustic sensors have emerged significant potential in high-sensitivity acoustic signal detection, but the narrow dynamic range limits the application prospect. To address the challenge, we propose and experimentally demonstrate a high-sensitivity acoustic sensor in optical whispering gallery mode microcavity. The proposed sensor integrates an extended Mach-Zehnder polarization interferometer with postselection, extending the dynamic range to the free spectral range. The sensing regions can be categorized into phase-drastic and phase-enhanced regions, both of which yield an optimal acoustic response that surpasses traditional transmission method. Experiment results demonstrate improvements of 57.87 dB in detection sensitivity and 26 times in minimal detectable acoustic pressure over the transmission method. Moreover, the application of coherent state and heterodyne detection can enhance response amplitude, further improving the detection sensitivity. Given the wide application range for acoustic dispersion and dissipation response, as well as the performance advantages of high sensitivity and wide dynamic range, the proposed WGM sensor offers a promising solution for acoustic sensing. Potentially, the structural design may be adaptable to other application scenarios involving time-varying signals through optical microcavity sensing.
format Preprint
id arxiv_https___arxiv_org_abs_2508_10229
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-sensitivity Optical Microcavity Acoustic Sensor Covering Free Spectral Range
Song, Qi
Li, Hongjing
Yu, Chengxi
Wang, Ding
Wu, Xingyu
Liu, Zhiqiang
Huang, Jingzheng
Wang, Chuan
Zeng, Guihua
Optics
Applied Physics
Optical whispering gallery mode microcavity acoustic sensors have emerged significant potential in high-sensitivity acoustic signal detection, but the narrow dynamic range limits the application prospect. To address the challenge, we propose and experimentally demonstrate a high-sensitivity acoustic sensor in optical whispering gallery mode microcavity. The proposed sensor integrates an extended Mach-Zehnder polarization interferometer with postselection, extending the dynamic range to the free spectral range. The sensing regions can be categorized into phase-drastic and phase-enhanced regions, both of which yield an optimal acoustic response that surpasses traditional transmission method. Experiment results demonstrate improvements of 57.87 dB in detection sensitivity and 26 times in minimal detectable acoustic pressure over the transmission method. Moreover, the application of coherent state and heterodyne detection can enhance response amplitude, further improving the detection sensitivity. Given the wide application range for acoustic dispersion and dissipation response, as well as the performance advantages of high sensitivity and wide dynamic range, the proposed WGM sensor offers a promising solution for acoustic sensing. Potentially, the structural design may be adaptable to other application scenarios involving time-varying signals through optical microcavity sensing.
title High-sensitivity Optical Microcavity Acoustic Sensor Covering Free Spectral Range
topic Optics
Applied Physics
url https://arxiv.org/abs/2508.10229