Low-temperature polycrystalline silicon waveguides for low loss transmission in the near-to-mid-infrared region
Low-temperature polycrystalline silicon waveguides for low loss transmission in the near-to-mid-infrared region
Low-temperature deposited polycrystalline silicon waveguides are emerging as a flexible platform that allows for dense optoelectronic integration. Here, the optical transmission properties of poly-silicon waveguides have been characterized from the near-to-mid-infrared wavelength regime, extending the optical transmission well beyond previous reports in the telecom band. The poly-Si waveguides with a dimension of 3 µm × ∼0.6 µm have been produced from pre-patterned amorphous silicon waveguides that are post-processed through laser melting, reflowing, and crystallization using a highly localized laser induced heat treatment at a wavelength of 532 nm. Low optical transmission losses (<3 dB cm−1) have been observed at 1.55 µm as well as across the wavelength range of 2−2.25 µm, aided by the relatively large waveguide heights that are enabled by the deposition process. The results demonstrate the suitability of low-temperature poly-silicon waveguides to find wide ranging applications within integrated mid-infrared systems.
1532-1540
Ghosh, Amar N.
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MacFarquhar, Stuart J.
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Aktaş, Ozan
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Saini, Than S.
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Oo, Swe Z.
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Chong, Harold M.H.
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Peacock, Anna C.
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16 January 2023
Ghosh, Amar N.
e278484a-8d87-42be-a8ef-6d682e8fa9c3
MacFarquhar, Stuart J.
cff30fb5-a4b6-44ab-b1b3-138e7020fba3
Aktaş, Ozan
2e90db41-f409-431f-9827-2e2577a52457
Saini, Than S.
5eaae01d-85c9-4df4-a311-d61bb2e0fa4e
Oo, Swe Z.
6495f6da-8f17-4484-98fb-6151b4efbd9a
Chong, Harold M.H.
795aa67f-29e5-480f-b1bc-9bd5c0d558e1
Peacock, Anna C.
685d924c-ef6b-401b-a0bd-acf1f8e758fc
Ghosh, Amar N., MacFarquhar, Stuart J., Aktaş, Ozan, Saini, Than S., Oo, Swe Z., Chong, Harold M.H. and Peacock, Anna C.
(2023)
Low-temperature polycrystalline silicon waveguides for low loss transmission in the near-to-mid-infrared region.
Optics Express, 31 (2), .
(doi:10.1364/OE.473474).
Abstract
Low-temperature deposited polycrystalline silicon waveguides are emerging as a flexible platform that allows for dense optoelectronic integration. Here, the optical transmission properties of poly-silicon waveguides have been characterized from the near-to-mid-infrared wavelength regime, extending the optical transmission well beyond previous reports in the telecom band. The poly-Si waveguides with a dimension of 3 µm × ∼0.6 µm have been produced from pre-patterned amorphous silicon waveguides that are post-processed through laser melting, reflowing, and crystallization using a highly localized laser induced heat treatment at a wavelength of 532 nm. Low optical transmission losses (<3 dB cm−1) have been observed at 1.55 µm as well as across the wavelength range of 2−2.25 µm, aided by the relatively large waveguide heights that are enabled by the deposition process. The results demonstrate the suitability of low-temperature poly-silicon waveguides to find wide ranging applications within integrated mid-infrared systems.
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oe-31-2-1532
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e-pub ahead of print date: 16 January 2023
Published date: 16 January 2023
Additional Information:
Funding Information: Engineering and Physical Sciences Research Council (EP/M022757/1, EP/N013247/1, EP/P000940/1).
Identifiers
Local EPrints ID: 479913
URI: http://eprints.soton.ac.uk/id/eprint/479913
ISSN: 1094-4087
PURE UUID: 2959a92c-b428-4795-b7d0-410a760038c7
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Date deposited: 28 Jul 2023 16:49
Last modified: 10 Oct 2024 02:00
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