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Adaptive delay lines implemented on a photonics chip for extended-range, high-speed absolute distance measurement

Adaptive delay lines implemented on a photonics chip for extended-range, high-speed absolute distance measurement
Adaptive delay lines implemented on a photonics chip for extended-range, high-speed absolute distance measurement

High-speed (upwards of 105 coordinates s-1) and long-range (~10 m) absolute distance measurement applications based on frequency scanning interferometry (FSI) generate very high modulation frequencies (typically >100 GHz) due to the laser frequency sweep rate and the large imbalance between the reference and object arms. Such systems are currently impractical due to the extremely high cost associated with sampling at these signal frequencies. Adaptive delay lines (ADLs) were recently proposed as a solution to balance the interferometer and therefore reduce sampling rate requirements by a factor of 2N, where N is the number of switches in the ADL [1, 2]. The technique has been successfully demonstrated in the lab using bulk optics and optical fiber configurations, and further reduction in size and cost will increase the breadth of metrology applications that can be addressed. Silicon photonics constitute an effective platform to miniaturize ADLs to chip-scale, simplifying instrument manufacture and providing a more robust configuration compared to bulk-optics and fiber-based solutions. We discuss the design and fabrication of chip-scale ADLs on a silicon on insulator (SOI) photonics platform, using optical switches based on heaters, multi-mode interferometer (MMI) couplers and Mach-Zehnder interferometers (MZI). We also establish the heater voltages of 4 switches in series, required to switch the optical path in the reference arm, a necessary step to use the device for FSI range measurements.

absolute distance measurement, adaptive delay lines, FMCW, Frequency scanning interferometry, FSI, lidar, photonics
0277-786X
SPIE
Coggrave, C.R.
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Ruiz, P.D.
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Huntley, J.M.
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Nolan, C.E.
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Gribble, A.P.
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Du, H.
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Banakar, M.
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Yan, X.
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Tran, D.T.
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Littlejohns, C.G.
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Littlejohns, Callum G.
Sorel, Marc
Coggrave, C.R.
0ff35596-0c4f-4a25-b413-371abf3dcbc0
Ruiz, P.D.
ab9eb00f-171c-417f-8304-5105e41cbd03
Huntley, J.M.
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Nolan, C.E.
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Gribble, A.P.
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Du, H.
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Banakar, M.
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Yan, X.
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Tran, D.T.
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Littlejohns, C.G.
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Littlejohns, Callum G.
Sorel, Marc

Coggrave, C.R., Ruiz, P.D., Huntley, J.M., Nolan, C.E., Gribble, A.P., Du, H., Banakar, M., Yan, X., Tran, D.T. and Littlejohns, C.G. (2023) Adaptive delay lines implemented on a photonics chip for extended-range, high-speed absolute distance measurement. Littlejohns, Callum G. and Sorel, Marc (eds.) In Emerging Applications in Silicon Photonics III. vol. 12334, SPIE. 7 pp . (doi:10.1117/12.2647526).

Record type: Conference or Workshop Item (Paper)

Abstract

High-speed (upwards of 105 coordinates s-1) and long-range (~10 m) absolute distance measurement applications based on frequency scanning interferometry (FSI) generate very high modulation frequencies (typically >100 GHz) due to the laser frequency sweep rate and the large imbalance between the reference and object arms. Such systems are currently impractical due to the extremely high cost associated with sampling at these signal frequencies. Adaptive delay lines (ADLs) were recently proposed as a solution to balance the interferometer and therefore reduce sampling rate requirements by a factor of 2N, where N is the number of switches in the ADL [1, 2]. The technique has been successfully demonstrated in the lab using bulk optics and optical fiber configurations, and further reduction in size and cost will increase the breadth of metrology applications that can be addressed. Silicon photonics constitute an effective platform to miniaturize ADLs to chip-scale, simplifying instrument manufacture and providing a more robust configuration compared to bulk-optics and fiber-based solutions. We discuss the design and fabrication of chip-scale ADLs on a silicon on insulator (SOI) photonics platform, using optical switches based on heaters, multi-mode interferometer (MMI) couplers and Mach-Zehnder interferometers (MZI). We also establish the heater voltages of 4 switches in series, required to switch the optical path in the reference arm, a necessary step to use the device for FSI range measurements.

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Published date: 11 January 2023
Additional Information: Funding Information: The authors gratefully acknowledge financial support from the Engineering and Physical Sciences Research Council to the Future Metrology Hub (EP/P006930/1) and CORNERSTONE (EP/L021129/1) projects, and from the Midlands Innovation Commercialisation of Research Accelerator (MICRA) and the Enterprise Project Group from Loughborough University (EPG 134-P5 1623). We are also grateful to Renishaw PLC for valuable technical discussions.
Venue - Dates: Emerging Applications in Silicon Photonics III 2022, , Birmingham, United Kingdom, 2022-12-06 - 2022-12-08
Keywords: absolute distance measurement, adaptive delay lines, FMCW, Frequency scanning interferometry, FSI, lidar, photonics
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 481800
URI: http://eprints.soton.ac.uk/id/eprint/481800
DOI: doi:10.1117/12.2647526
ISSN: 0277-786X
PURE UUID: 30f955f1-4db6-4b02-b34b-365524e0a101

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Date deposited: 08 Sep 2023 16:33
Last modified: 17 Mar 2024 13:27

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Contributors

Author: C.R. Coggrave
Author: P.D. Ruiz
Author: J.M. Huntley
Author: C.E. Nolan
Author: A.P. Gribble
Author: H. Du
Author: M. Banakar
Author: X. Yan
Author: D.T. Tran
Author: C.G. Littlejohns
Editor: Callum G. Littlejohns
Editor: Marc Sorel

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