Fourier transform-limited optical frequency-modulated continuous-wave interferometry over several tens of laser coherence lengths

Weilin Xie; Qian Zhou; Fabien Bretenaker; Zongyang Xia; Hongxiao Shi; Jie Qin; Yi Dong; Weisheng Hu

doi:10.1364/OL.41.002962

Fourier transform-limited optical frequency-modulated continuous-wave interferometry over several tens of laser coherence lengths

Weilin Xie, Qian Zhou, Fabien Bretenaker, Zongyang Xia, Hongxiao Shi, Jie Qin, Yi Dong^*, Weisheng Hu

^*Corresponding author for this work

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

30 Citations (Scopus)

Abstract

We report on a versatile optical frequency-modulated continuous-wave interferometry technique that exploits wideband phase locking for generating highly coherent linear laser frequency chirps. This technique is based on an ultra-short delay-unbalanced interferometer, which leads to a large bandwidth, short lock time, and robust operation even in the absence of any isolation from environmental perturbations. In combination with a digital delay-matched phase error compensation, this permits the achievement of a range window about 60 times larger than the intrinsic laser coherence length with a 1.25 mm Fourier transform-limited spatial resolution. The demonstrated configuration can be easily applied to virtually any semiconductor laser.

Original language	English
Pages (from-to)	2962-2965
Number of pages	4
Journal	Optics Letters
Volume	41
Issue number	13
DOIs	https://doi.org/10.1364/OL.41.002962
Publication status	Published - 1 Jul 2016
Externally published	Yes

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abstract = "We report on a versatile optical frequency-modulated continuous-wave interferometry technique that exploits wideband phase locking for generating highly coherent linear laser frequency chirps. This technique is based on an ultra-short delay-unbalanced interferometer, which leads to a large bandwidth, short lock time, and robust operation even in the absence of any isolation from environmental perturbations. In combination with a digital delay-matched phase error compensation, this permits the achievement of a range window about 60 times larger than the intrinsic laser coherence length with a 1.25 mm Fourier transform-limited spatial resolution. The demonstrated configuration can be easily applied to virtually any semiconductor laser.",

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AU - Zhou, Qian

AU - Bretenaker, Fabien

AU - Xia, Zongyang

AU - Shi, Hongxiao

AU - Qin, Jie

AU - Dong, Yi

AU - Hu, Weisheng

PY - 2016/7/1

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AB - We report on a versatile optical frequency-modulated continuous-wave interferometry technique that exploits wideband phase locking for generating highly coherent linear laser frequency chirps. This technique is based on an ultra-short delay-unbalanced interferometer, which leads to a large bandwidth, short lock time, and robust operation even in the absence of any isolation from environmental perturbations. In combination with a digital delay-matched phase error compensation, this permits the achievement of a range window about 60 times larger than the intrinsic laser coherence length with a 1.25 mm Fourier transform-limited spatial resolution. The demonstrated configuration can be easily applied to virtually any semiconductor laser.

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Fourier transform-limited optical frequency-modulated continuous-wave interferometry over several tens of laser coherence lengths

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