Stabilizing Fabry–Perot optical frequency comb with differential phase detection and bias compensation

Xiyi Weng; Wei Wei; Weilin Xie; Yi Dong

doi:10.1364/OL.514467

Stabilizing Fabry–Perot optical frequency comb with differential phase detection and bias compensation

Xiyi Weng, Wei Wei^*, Weilin Xie, Yi Dong

^*此作品的通讯作者

光电学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文献综述 › 同行评审

摘要

We present a stable optical frequency comb (OFC) that utilizes a Fabry–Perot phase modulator. The environmental-induced state variation of the OFC is accurately detected by measuring the relative phase changes of beat signals from its upper and lower sidebands. We then compensate for this variation by controlling OFC bias voltage through a homodyne phase-locked loop. The differential phase detection eliminates the common-mode detection noise, enabling long-term stability of the OFC without requiring any additional reference signal. The relative phase change is only 0.056° over 3800 s. Even under a drastic temperature change, the OFC remains stable, validating the effectiveness of the proposed stabilization method.

源语言	英语
页（从-至）	1113-1116
页数	4
期刊	Optics Letters
卷	49
期	5
DOI	https://doi.org/10.1364/OL.514467
出版状态	已出版 - 1 3月 2024

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Weng, X., Wei, W., Xie, W., & Dong, Y. (2024). Stabilizing Fabry–Perot optical frequency comb with differential phase detection and bias compensation. Optics Letters, 49(5), 1113-1116. https://doi.org/10.1364/OL.514467

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abstract = "We present a stable optical frequency comb (OFC) that utilizes a Fabry–Perot phase modulator. The environmental-induced state variation of the OFC is accurately detected by measuring the relative phase changes of beat signals from its upper and lower sidebands. We then compensate for this variation by controlling OFC bias voltage through a homodyne phase-locked loop. The differential phase detection eliminates the common-mode detection noise, enabling long-term stability of the OFC without requiring any additional reference signal. The relative phase change is only 0.056° over 3800 s. Even under a drastic temperature change, the OFC remains stable, validating the effectiveness of the proposed stabilization method.",

author = "Xiyi Weng and Wei Wei and Weilin Xie and Yi Dong",

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AU - Weng, Xiyi

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AU - Dong, Yi

PY - 2024/3/1

Y1 - 2024/3/1

N2 - We present a stable optical frequency comb (OFC) that utilizes a Fabry–Perot phase modulator. The environmental-induced state variation of the OFC is accurately detected by measuring the relative phase changes of beat signals from its upper and lower sidebands. We then compensate for this variation by controlling OFC bias voltage through a homodyne phase-locked loop. The differential phase detection eliminates the common-mode detection noise, enabling long-term stability of the OFC without requiring any additional reference signal. The relative phase change is only 0.056° over 3800 s. Even under a drastic temperature change, the OFC remains stable, validating the effectiveness of the proposed stabilization method.

AB - We present a stable optical frequency comb (OFC) that utilizes a Fabry–Perot phase modulator. The environmental-induced state variation of the OFC is accurately detected by measuring the relative phase changes of beat signals from its upper and lower sidebands. We then compensate for this variation by controlling OFC bias voltage through a homodyne phase-locked loop. The differential phase detection eliminates the common-mode detection noise, enabling long-term stability of the OFC without requiring any additional reference signal. The relative phase change is only 0.056° over 3800 s. Even under a drastic temperature change, the OFC remains stable, validating the effectiveness of the proposed stabilization method.

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DO - 10.1364/OL.514467

M3 - Review article

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SN - 0146-9592

VL - 49

SP - 1113

EP - 1116

JO - Optics Letters

JF - Optics Letters

IS - 5

ER -

Stabilizing Fabry–Perot optical frequency comb with differential phase detection and bias compensation

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