Distance Metrology with Integrated Mode-Locked Ring Laser

Kefei Hei; Guang Shi; Andreas Hansel; Zhongwen Deng; Sylwester Latkowski; Steven A. Van Den Berg; Erwin Bente; Nandini Bhattacharya

doi:10.1109/JPHOT.2019.2940068

Distance Metrology with Integrated Mode-Locked Ring Laser

Kefei Hei, Guang Shi, Andreas Hansel, Zhongwen Deng, Sylwester Latkowski, Steven A. Van Den Berg, Erwin Bente, Nandini Bhattacharya

ImPhys/Optics

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Abstract

The measurement of distance plays an integral part in many aspects of modern societies. In this paper an integrated mode-locked laser on a chip is used for distance measurement based on mode-resolved interferometry. The emission from the on-chip source with a repetition rate of 2.5 GHz and a spectral bandwidth of 3 nm is coupled into a Michelson interferometer. The interferometer output is recorded as a spectral interferogram, which is captured in a single camera image. The images are analyzed using Hilbert transform to extract the distance. The distance derived shows a deviation of 6 \mum from the reference, for a distance up to 25 mm. We also demonstrate interferometry with repetition frequency sweep which can also be used with the source. Performance is expected to be better in the near future with the rapid developments in the field of on-chip laser sources which are demonstrating larger spectral widths and coherence lengths.

Original language	English
Article number	8827284
Number of pages	10
Journal	IEEE Photonics Journal
Volume	11
Issue number	6
DOIs	https://doi.org/10.1109/JPHOT.2019.2940068
Publication status	Published - 2019

Keywords

Metrology
mode-locked lasers and integrated optics
OA-Fund TU Delft

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10.1109/JPHOT.2019.2940068

08827284Final published version, 2.71 MBLicence: CC BY

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title = "Distance Metrology with Integrated Mode-Locked Ring Laser",

abstract = "The measurement of distance plays an integral part in many aspects of modern societies. In this paper an integrated mode-locked laser on a chip is used for distance measurement based on mode-resolved interferometry. The emission from the on-chip source with a repetition rate of 2.5 GHz and a spectral bandwidth of 3 nm is coupled into a Michelson interferometer. The interferometer output is recorded as a spectral interferogram, which is captured in a single camera image. The images are analyzed using Hilbert transform to extract the distance. The distance derived shows a deviation of 6 \mum from the reference, for a distance up to 25 mm. We also demonstrate interferometry with repetition frequency sweep which can also be used with the source. Performance is expected to be better in the near future with the rapid developments in the field of on-chip laser sources which are demonstrating larger spectral widths and coherence lengths.",

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AU - Hei, Kefei

AU - Shi, Guang

AU - Hansel, Andreas

AU - Deng, Zhongwen

AU - Latkowski, Sylwester

AU - Van Den Berg, Steven A.

AU - Bente, Erwin

AU - Bhattacharya, Nandini

PY - 2019

Y1 - 2019

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AB - The measurement of distance plays an integral part in many aspects of modern societies. In this paper an integrated mode-locked laser on a chip is used for distance measurement based on mode-resolved interferometry. The emission from the on-chip source with a repetition rate of 2.5 GHz and a spectral bandwidth of 3 nm is coupled into a Michelson interferometer. The interferometer output is recorded as a spectral interferogram, which is captured in a single camera image. The images are analyzed using Hilbert transform to extract the distance. The distance derived shows a deviation of 6 \mum from the reference, for a distance up to 25 mm. We also demonstrate interferometry with repetition frequency sweep which can also be used with the source. Performance is expected to be better in the near future with the rapid developments in the field of on-chip laser sources which are demonstrating larger spectral widths and coherence lengths.

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Distance Metrology with Integrated Mode-Locked Ring Laser

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