Metasurfaces integrated with a single-mode waveguide array for off-chip wavefront shaping
Metasurfaces integrated with a single-mode waveguide array for off-chip wavefront shaping
Integration of metasurfaces and SOI (silicon-on-insulator) chips can leverage the advantages of both metamaterials and silicon photonics, enabling novel light shaping functionalities in planar, compact devices that are compatible with CMOS (complementary metal-oxide-semiconductor) production. To facilitate light extraction from a two-dimensional metasurface vertically into free space, the established approach is to use a wide waveguide. However, the multi-modal feature of such wide waveguides can render the device vulnerable to mode distortion. Here, we propose a different approach, where an array of narrow, single-mode waveguides is used instead of a wide, multi-mode waveguide. This approach tolerates nano-scatterers with a relatively high scattering efficiency, for example Si nanopillars that are in direct contact with the waveguides. Two example devices are designed and numerically studied as demonstrations: the first being a beam deflector that deflects light into the same direction regardless of the direction of input light, and the second being a light-focusing metalens. This work shows a straightforward approach of metasurface-SOI chip integration, which could be useful for emerging applications such as metalens arrays and neural probes that require off-chip light shaping from relatively small metasurfaces.
15876-15887
Chen, Siyu
767b4768-6020-4d8a-bc81-cf7930be42a1
Huang, Jianzhi
98c98942-2532-4360-8885-014d6f694b94
Yin, Shengqi
363a868e-95cb-4354-b52f-0d4f9fcd3e70
Milosevic, Milan
b28da945-84a5-4317-8896-6d9ea6a69589
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Chong, Harold
795aa67f-29e5-480f-b1bc-9bd5c0d558e1
Fang, Xu
96b4b212-496b-4d68-82a4-06df70f94a86
26 April 2023
Chen, Siyu
767b4768-6020-4d8a-bc81-cf7930be42a1
Huang, Jianzhi
98c98942-2532-4360-8885-014d6f694b94
Yin, Shengqi
363a868e-95cb-4354-b52f-0d4f9fcd3e70
Milosevic, Milan
b28da945-84a5-4317-8896-6d9ea6a69589
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Chong, Harold
795aa67f-29e5-480f-b1bc-9bd5c0d558e1
Fang, Xu
96b4b212-496b-4d68-82a4-06df70f94a86
Chen, Siyu, Huang, Jianzhi, Yin, Shengqi, Milosevic, Milan, Pi, Hailong, Yan, Jize, Chong, Harold and Fang, Xu
(2023)
Metasurfaces integrated with a single-mode waveguide array for off-chip wavefront shaping.
Optics Express, 31 (10), .
(doi:10.1364/OE.488959).
Abstract
Integration of metasurfaces and SOI (silicon-on-insulator) chips can leverage the advantages of both metamaterials and silicon photonics, enabling novel light shaping functionalities in planar, compact devices that are compatible with CMOS (complementary metal-oxide-semiconductor) production. To facilitate light extraction from a two-dimensional metasurface vertically into free space, the established approach is to use a wide waveguide. However, the multi-modal feature of such wide waveguides can render the device vulnerable to mode distortion. Here, we propose a different approach, where an array of narrow, single-mode waveguides is used instead of a wide, multi-mode waveguide. This approach tolerates nano-scatterers with a relatively high scattering efficiency, for example Si nanopillars that are in direct contact with the waveguides. Two example devices are designed and numerically studied as demonstrations: the first being a beam deflector that deflects light into the same direction regardless of the direction of input light, and the second being a light-focusing metalens. This work shows a straightforward approach of metasurface-SOI chip integration, which could be useful for emerging applications such as metalens arrays and neural probes that require off-chip light shaping from relatively small metasurfaces.
Text
Metasurfaces integrated with a single-mode waveguide array for off-chip wavefront shaping
- Accepted Manuscript
Text
oe-31-10-15876
- Version of Record
More information
Accepted/In Press date: 2 April 2023
Published date: 26 April 2023
Additional Information:
Funding Information:
Engineering and Physical Sciences Research Council (EP/V000624/1); Royal Society (IEC\R3\183071, IES\R3\183086).
Identifiers
Local EPrints ID: 483378
URI: http://eprints.soton.ac.uk/id/eprint/483378
ISSN: 1094-4087
PURE UUID: d8d7b36e-9073-4071-9851-ee6df3245471
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Date deposited: 30 Oct 2023 12:23
Last modified: 18 Mar 2024 03:33
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Contributors
Author:
Siyu Chen
Author:
Jianzhi Huang
Author:
Shengqi Yin
Author:
Milan Milosevic
Author:
Hailong Pi
Author:
Harold Chong
Author:
Xu Fang
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