Compact nano-void spectrometer based on a stable engineered scattering system

Random scattering of light in disordered media can be used for highly sensitive speckle-based wavemeters and spectrometers. However, the multiple scattering events that fold long optical paths within a compact space also make such devices exceedingly sensitive to vibrations and small disturbances to the disordered media. Here, we show how scattering can be engineered so that it can be used for a compact computational spectrometer that is largely insensitive to environmental factors. We designed and fabricated a three-dimensional pseudo-random nano-void pattern with 62% scattering efficiency. The controlled amount of multiple scattering ensured a sufficiently long optical path for the target resolution of 100 pm, with optimal long-term stability. The 200-μm-thick scattering silica substrate was integrated in a compact assembly with a low-cost camera sensor. The target resolution was achieved for full spectrum measurements while single wavelengths could be determined with 50 pm resolution. Such tailored scattering systems can improve the trade-off among cost, size, stability, and spectral resolution in computational spectrometers.

Scattering chip, Scattering, spectrometer, compact device, femtosecond laser writing, nano-voids, Engineered scattering system, SVD

10.1364/PRJ.465322

2327-9125

2328-2336

Sun, Qi

66e3c3df-5a60-4927-a47a-c4f6020c2fc0

Falak, Przemyslaw Ludwik

f414a5d1-34e8-429d-8f9a-f203b6d83324

Vettenburg, Tom

7bf2aadc-de2c-489e-8466-48f13595ceb2

Lee, Timothy

beb3b88e-3e5a-4c3f-8636-bb6de8040fcc

Phillips, David

96ee79d3-d922-4f85-ac56-f4196c9377fb

Brambilla, Gilberto

815d9712-62c7-47d1-8860-9451a363a6c8

Beresna, Martynas

a6dc062e-93c6-46a5-aeb3-8de332cdec7b

1 October 2022

Sun, Qi

66e3c3df-5a60-4927-a47a-c4f6020c2fc0

Falak, Przemyslaw Ludwik

f414a5d1-34e8-429d-8f9a-f203b6d83324

Vettenburg, Tom

7bf2aadc-de2c-489e-8466-48f13595ceb2

Lee, Timothy

beb3b88e-3e5a-4c3f-8636-bb6de8040fcc

Phillips, David

96ee79d3-d922-4f85-ac56-f4196c9377fb

Brambilla, Gilberto

815d9712-62c7-47d1-8860-9451a363a6c8

Beresna, Martynas

a6dc062e-93c6-46a5-aeb3-8de332cdec7b

Sun, Qi, Falak, Przemyslaw Ludwik, Vettenburg, Tom, Lee, Timothy, Phillips, David, Brambilla, Gilberto and Beresna, Martynas (2022) Compact nano-void spectrometer based on a stable engineered scattering system. Photonics Research, 10 (10), 2328-2336, [465322]. (doi:10.1364/PRJ.465322).

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Abstract

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Accepted/In Press date: 5 August 2022

Published date: 1 October 2022

Additional Information: Funding Information: Acknowledgment. D.B.P. thanks the Royal Academy of Engineering and the European Research Council for support. T.V. is a UKRI Future Leaders Fellow. M.B., D.B.P., T.V., and G.B. directed the project, Q.S. and P.F. carried out the wavemeter, spectrometer and stability experiments, P.F. designed the spectrometer case, and T.V., T.L., Q.S., and P.F. developed the analysis algorithm. Q.S. and P.F. wrote the manuscript. All authors reviewed the manuscript. Funding Information: European Research Council (804626); UK Research and Innovation (MR/S034900/1); Royal Academy of Engineering; Engineering and Physical Sciences Research Council (EP/N00762X/1). Publisher Copyright: © 2022 Chinese Laser Press.

Keywords: Scattering chip, Scattering, spectrometer, compact device, femtosecond laser writing, nano-voids, Engineered scattering system, SVD

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