Absolute distance measurement using frequency-sweeping heterodyne interferometer calibrated by an optical frequency comb

Xuejian Wu; Haoyun Wei; Hongyuan Zhang; Libing Ren; Yan Li; Jitao Zhang

doi:10.1364/AO.52.002042

Applied Optics
Vol. 52,
Issue 10,
pp. 2042-2048
(2013)
•https://doi.org/10.1364/AO.52.002042

Absolute distance measurement using frequency-sweeping heterodyne interferometer calibrated by an optical frequency comb

Xuejian Wu, Haoyun Wei, Hongyuan Zhang, Libing Ren, Yan Li, and Jitao Zhang

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Xuejian Wu, Haoyun Wei, Hongyuan Zhang, Libing Ren, Yan Li, and Jitao Zhang, "Absolute distance measurement using frequency-sweeping heterodyne interferometer calibrated by an optical frequency comb," Appl. Opt. 52, 2042-2048 (2013)

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- Instrumentation, Measurement, and Metrology
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About this Article
History
- Original Manuscript: January 29, 2013
- Revised Manuscript: February 14, 2013
- Manuscript Accepted: February 25, 2013
- Published: March 22, 2013

Abstract

We present a frequency-sweeping heterodyne interferometer to measure an absolute distance based on a frequency-tunable diode laser calibrated by an optical frequency comb (OFC) and an interferometric phase measurement system. The laser frequency-sweeping process is calibrated by the OFC within a range of 200 GHz and an accuracy of 1.3 kHz, which brings about a precise temporal synthetic wavelength of 1.499 mm. The interferometric phase measurement system consisting of the analog signal processing circuit and the digital phase meter achieves a phase difference resolution better than 0.1 deg. As the laser frequency is sweeping, the absolute distance can be determined by measuring the phase difference variation of the interference signals. In the laboratory condition, our experimental scheme realizes micrometer accuracy over meter distance.

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