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Sc2O3 on sapphire all-crystalline grating–waveguide resonant reflectors

Sc2O3 on sapphire all-crystalline grating–waveguide resonant reflectors
Sc2O3 on sapphire all-crystalline grating–waveguide resonant reflectors
This paper reports the fabrication and first demonstration of all-dielectric crystalline grating–waveguide reflectors comprising a Sc2O3 waveguide grown on a sub-wavelength-patterned sapphire substrate. Rigorous coupled-wave analysis is employed to simulate the operation of the structure, suggesting a 100% resonance reflectivity in theory. Structuring of the sapphire substrate is achieved using inductively coupled plasma etching, whilst pulsed laser deposition is used for epitaxial growth of the Sc2O3 crystalline waveguide. Devices with distinct TE- and TM-polarisation resonances around 1030-nm for an angle of incidence near 10° are demonstrated, with reflectance approaching 90%. The discrepancy in reflectivity is attributed to the waveguide thickness variation and surface roughness. Refinement of the fabrication processes and tolerances should lead to improvement in the surface quality of the crystalline grating–waveguide structure and operation closer to the ideal resonance reflectivity.
0946-2171
Mourkioti, Georgia
fdbd699f-f21a-4e85-98bb-f961bd59b19f
Bashir, Danish
534a36c9-f44e-432e-8f62-7fef91a6c0ed
Govindassamy, Goby A.
83390ff2-bee6-4845-8f60-41b4ad990125
Li, Fangfang
38828e77-0be5-4338-9990-0d321e934583
Eason, Robert W.
2c4b791d-4d48-4e94-993d-f3199591e51a
Graf, Thomas
4820734c-f64a-48d8-8539-680836bdba36
Abdou Ahmed, Marwan
43af5aef-5417-46f7-a9e8-d7c019a0e858
Mackenzie, Jacob I.
1d82c826-fdbf-425b-ac04-be43ccf12008
Mourkioti, Georgia
fdbd699f-f21a-4e85-98bb-f961bd59b19f
Bashir, Danish
534a36c9-f44e-432e-8f62-7fef91a6c0ed
Govindassamy, Goby A.
83390ff2-bee6-4845-8f60-41b4ad990125
Li, Fangfang
38828e77-0be5-4338-9990-0d321e934583
Eason, Robert W.
2c4b791d-4d48-4e94-993d-f3199591e51a
Graf, Thomas
4820734c-f64a-48d8-8539-680836bdba36
Abdou Ahmed, Marwan
43af5aef-5417-46f7-a9e8-d7c019a0e858
Mackenzie, Jacob I.
1d82c826-fdbf-425b-ac04-be43ccf12008

Mourkioti, Georgia, Bashir, Danish, Govindassamy, Goby A., Li, Fangfang, Eason, Robert W., Graf, Thomas, Abdou Ahmed, Marwan and Mackenzie, Jacob I. (2023) Sc2O3 on sapphire all-crystalline grating–waveguide resonant reflectors. Applied Physics B: Lasers and Optics, 129 (5), [66]. (doi:10.1007/s00340-023-08009-8).

Record type: Article

Abstract

This paper reports the fabrication and first demonstration of all-dielectric crystalline grating–waveguide reflectors comprising a Sc2O3 waveguide grown on a sub-wavelength-patterned sapphire substrate. Rigorous coupled-wave analysis is employed to simulate the operation of the structure, suggesting a 100% resonance reflectivity in theory. Structuring of the sapphire substrate is achieved using inductively coupled plasma etching, whilst pulsed laser deposition is used for epitaxial growth of the Sc2O3 crystalline waveguide. Devices with distinct TE- and TM-polarisation resonances around 1030-nm for an angle of incidence near 10° are demonstrated, with reflectance approaching 90%. The discrepancy in reflectivity is attributed to the waveguide thickness variation and surface roughness. Refinement of the fabrication processes and tolerances should lead to improvement in the surface quality of the crystalline grating–waveguide structure and operation closer to the ideal resonance reflectivity.

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Accepted/In Press date: 20 March 2023
e-pub ahead of print date: 5 April 2023
Published date: 1 May 2023
Additional Information: Funding Information: This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie Grant Agreement No 813159. JM also acknowledges the U.K. Engineering and Physical Sciences Research Council (EPSRC) for financial support via Grant Nos. EP/N018281/1 and EP/P027644/1. FL also acknowledges the funding from the Academy of Finland Flagship Programme, Photonics Research, and Innovation (PREIN) with Decision No. 320166.
Learn more about Zepler Institute for Photonics and Nanoelectronics research Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 477179
URI: http://eprints.soton.ac.uk/id/eprint/477179
DOI: doi:10.1007/s00340-023-08009-8
ISSN: 0946-2171
PURE UUID: 4e6a7812-5b1e-40d4-8ea6-f4e00382384f
ORCID for Jacob I. Mackenzie: ORCID iD orcid.org/0000-0002-3355-6051

Catalogue record

Date deposited: 31 May 2023 16:58
Last modified: 17 Mar 2024 02:51

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Contributors

Author: Georgia Mourkioti
Author: Danish Bashir
Author: Goby A. Govindassamy
Author: Fangfang Li
Author: Robert W. Eason
Author: Thomas Graf
Author: Marwan Abdou Ahmed
Author: Jacob I. Mackenzie ORCID iD

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