High sensitivity demodulation of a reflective interferometer-based optical current sensor using an optoelectronic oscillator

Muguang Wang; Naihan Zhang; Xiaodi Huang; Bin Yin; Hongqian Mu; Mengyao Han; Desheng Chen

doi:10.1364/OL.401279

High sensitivity demodulation of a reflective interferometer-based optical current sensor using an optoelectronic oscillator

Muguang Wang
, Naihan Zhang
, Xiaodi Huang
, Bin Yin
, Hongqian Mu
, Mengyao Han
, Desheng Chen

科研成果: 期刊稿件 › 文章 › 同行评审

17 引用（Scopus）

摘要

A novel, to the best of our knowledge, interrogation scheme based on an optoelectronic oscillator (OEO) with high sensitivity and high speed response for a fiber optical current sensor utilizing a reflective interferometer is proposed and experimentally demonstrated. Due to the Faraday effect, a magneto-optic phase shift induced by current variation is generated between two orthogonal light waves. The polarization-dependent properties of the Mach–Zehnder modulator are used to convert the magneto-optic phase shift into the phase difference between the optical carrier and sideband, which is then mapped to the oscillating frequency shift by closing an OEO loop. A high current sensitivity of 152.5 kHz/A with a range of 0–2.5 A is obtained in the experiment.

源语言	英语
页（从-至）	4519-4522
页数	4
期刊	Optics Letters
卷	45
期	16
DOI	https://doi.org/10.1364/OL.401279
出版状态	已出版 - 15 8月 2020
已对外发布	是

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abstract = "A novel, to the best of our knowledge, interrogation scheme based on an optoelectronic oscillator (OEO) with high sensitivity and high speed response for a fiber optical current sensor utilizing a reflective interferometer is proposed and experimentally demonstrated. Due to the Faraday effect, a magneto-optic phase shift induced by current variation is generated between two orthogonal light waves. The polarization-dependent properties of the Mach–Zehnder modulator are used to convert the magneto-optic phase shift into the phase difference between the optical carrier and sideband, which is then mapped to the oscillating frequency shift by closing an OEO loop. A high current sensitivity of 152.5 kHz/A with a range of 0–2.5 A is obtained in the experiment.",

author = "Muguang Wang and Naihan Zhang and Xiaodi Huang and Bin Yin and Hongqian Mu and Mengyao Han and Desheng Chen",

note = "Publisher Copyright: {\textcopyright} 2020 Optical Society of America",

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AU - Wang, Muguang

AU - Zhang, Naihan

AU - Huang, Xiaodi

AU - Yin, Bin

AU - Mu, Hongqian

AU - Han, Mengyao

AU - Chen, Desheng

PY - 2020/8/15

Y1 - 2020/8/15

N2 - A novel, to the best of our knowledge, interrogation scheme based on an optoelectronic oscillator (OEO) with high sensitivity and high speed response for a fiber optical current sensor utilizing a reflective interferometer is proposed and experimentally demonstrated. Due to the Faraday effect, a magneto-optic phase shift induced by current variation is generated between two orthogonal light waves. The polarization-dependent properties of the Mach–Zehnder modulator are used to convert the magneto-optic phase shift into the phase difference between the optical carrier and sideband, which is then mapped to the oscillating frequency shift by closing an OEO loop. A high current sensitivity of 152.5 kHz/A with a range of 0–2.5 A is obtained in the experiment.

AB - A novel, to the best of our knowledge, interrogation scheme based on an optoelectronic oscillator (OEO) with high sensitivity and high speed response for a fiber optical current sensor utilizing a reflective interferometer is proposed and experimentally demonstrated. Due to the Faraday effect, a magneto-optic phase shift induced by current variation is generated between two orthogonal light waves. The polarization-dependent properties of the Mach–Zehnder modulator are used to convert the magneto-optic phase shift into the phase difference between the optical carrier and sideband, which is then mapped to the oscillating frequency shift by closing an OEO loop. A high current sensitivity of 152.5 kHz/A with a range of 0–2.5 A is obtained in the experiment.

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ER -

High sensitivity demodulation of a reflective interferometer-based optical current sensor using an optoelectronic oscillator

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