Dual-frequency Doppler velocimeter based on delay interferometric optical phase-locking

Yuxiang Feng Weilin Xie; Yinxia Meng Ling Zhang; Jiang Yang; Wei Wei; Yi Dong

doi:10.1364/OL.420402

Dual-frequency Doppler velocimeter based on delay interferometric optical phase-locking

Yuxiang Feng Weilin Xie^*, Yinxia Meng Ling Zhang, Jiang Yang, Wei Wei, Yi Dong

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

We present a dual-frequency laser Doppler velocimeter (DF-LDV) relying on a DF laser source (DFLS) generated by optical phase-locking two individual lasers to a common unbalanced Mach–Zehnder interferometer, which allows achieving high stability regardless of the DF separation of the lasers. This DFLS is evaluated using an optical frequency comb, testifying to the generation of DFLS with large DF separation up to terahertz with flexible tunability and high stability. Demonstration of DF-LDV using the DFLS of ∼1.024 THz separation has achieved 1.62 × 10⁻² mm/s velocity resolution even for a slow velocity of 1.8 mm/s in a mere 5 s acquisition time, confirming the high resolution and efficient speckle noise suppression enabled by the proposed DF-LDV. Featuring high precision, flexibility, and robustness, this method is particularly attractive from the practical point of view.

Original language	English
Pages (from-to)	2103-2106
Number of pages	4
Journal	Optics Letters
Volume	46
Issue number	9
DOIs	https://doi.org/10.1364/OL.420402
Publication status	Published - 1 May 2021

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title = "Dual-frequency Doppler velocimeter based on delay interferometric optical phase-locking",

abstract = "We present a dual-frequency laser Doppler velocimeter (DF-LDV) relying on a DF laser source (DFLS) generated by optical phase-locking two individual lasers to a common unbalanced Mach–Zehnder interferometer, which allows achieving high stability regardless of the DF separation of the lasers. This DFLS is evaluated using an optical frequency comb, testifying to the generation of DFLS with large DF separation up to terahertz with flexible tunability and high stability. Demonstration of DF-LDV using the DFLS of ∼1.024 THz separation has achieved 1.62 × 10−2 mm/s velocity resolution even for a slow velocity of 1.8 mm/s in a mere 5 s acquisition time, confirming the high resolution and efficient speckle noise suppression enabled by the proposed DF-LDV. Featuring high precision, flexibility, and robustness, this method is particularly attractive from the practical point of view.",

author = "{Weilin Xie}, {Yuxiang Feng} and {Ling Zhang}, {Yinxia Meng} and Jiang Yang and Wei Wei and Yi Dong",

note = "Publisher Copyright: {\textcopyright} 2021 Optical Society of America.",

year = "2021",

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doi = "10.1364/OL.420402",

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T1 - Dual-frequency Doppler velocimeter based on delay interferometric optical phase-locking

AU - Weilin Xie, Yuxiang Feng

AU - Ling Zhang, Yinxia Meng

AU - Yang, Jiang

AU - Wei, Wei

AU - Dong, Yi

PY - 2021/5/1

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N2 - We present a dual-frequency laser Doppler velocimeter (DF-LDV) relying on a DF laser source (DFLS) generated by optical phase-locking two individual lasers to a common unbalanced Mach–Zehnder interferometer, which allows achieving high stability regardless of the DF separation of the lasers. This DFLS is evaluated using an optical frequency comb, testifying to the generation of DFLS with large DF separation up to terahertz with flexible tunability and high stability. Demonstration of DF-LDV using the DFLS of ∼1.024 THz separation has achieved 1.62 × 10−2 mm/s velocity resolution even for a slow velocity of 1.8 mm/s in a mere 5 s acquisition time, confirming the high resolution and efficient speckle noise suppression enabled by the proposed DF-LDV. Featuring high precision, flexibility, and robustness, this method is particularly attractive from the practical point of view.

AB - We present a dual-frequency laser Doppler velocimeter (DF-LDV) relying on a DF laser source (DFLS) generated by optical phase-locking two individual lasers to a common unbalanced Mach–Zehnder interferometer, which allows achieving high stability regardless of the DF separation of the lasers. This DFLS is evaluated using an optical frequency comb, testifying to the generation of DFLS with large DF separation up to terahertz with flexible tunability and high stability. Demonstration of DF-LDV using the DFLS of ∼1.024 THz separation has achieved 1.62 × 10−2 mm/s velocity resolution even for a slow velocity of 1.8 mm/s in a mere 5 s acquisition time, confirming the high resolution and efficient speckle noise suppression enabled by the proposed DF-LDV. Featuring high precision, flexibility, and robustness, this method is particularly attractive from the practical point of view.

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JO - Optics Letters

JF - Optics Letters

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Dual-frequency Doppler velocimeter based on delay interferometric optical phase-locking

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