Asymmetric vortex beam emission from a metasurface-integrated microring with broken conjugate symmetry
Asymmetric vortex beam emission from a metasurface-integrated microring with broken conjugate symmetry
Vortex beams that carry orbital angular moment (OAM) have recently attracted a great amount of research interest, and metasurfaces and planar microcavities have emerged as two prominent, but mostly separated, methods for Si chip-based vortex beam emission. In this work, we demonstrate in numerical simulation for the first time the hybridization of these two existing methods in a Si chip-based passive emitter (i.e., a light coupler). A unique feature of this device is its broken conjugate symmetry, which originates from introducing a metasurface phase gradient along a microring. The broken conjugate symmetry creates a new phenomenon that we refer to as asymmetric vortex beam emission. It allows two opposite input directions to generate two independent sets of OAM values, a capability that has never been reported before in Si chip-based passive emitters. In addition, we have also developed here a new analytical method to extract the OAM spectrum from a vector vortex beam. This analytical method will prove to be useful for vector vortex beam analysis, as mode purity analysis has rarely been reported in literature due to the complexity of the full-vector nature of such beams. This study provides new approaches for both the design and the analysis of integrated vortex beam emission, which could be utilized in many applications such as free-space optical communications and microfluidic particle manipulation.
42549-42561
Huang, Jianzhi
98c98942-2532-4360-8885-014d6f694b94
Yu, Wangke
c5688b04-647c-4189-a3b0-ac87aa883bbf
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Shen, Yijie
42410cf7-8adb-4de6-9175-a1332245c368
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Fang, Xu
96b4b212-496b-4d68-82a4-06df70f94a86
4 December 2023
Huang, Jianzhi
98c98942-2532-4360-8885-014d6f694b94
Yu, Wangke
c5688b04-647c-4189-a3b0-ac87aa883bbf
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Shen, Yijie
42410cf7-8adb-4de6-9175-a1332245c368
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Fang, Xu
96b4b212-496b-4d68-82a4-06df70f94a86
Huang, Jianzhi, Yu, Wangke, Pi, Hailong, Shen, Yijie, Yan, Jize and Fang, Xu
(2023)
Asymmetric vortex beam emission from a metasurface-integrated microring with broken conjugate symmetry.
Optics Express, 31 (25), .
(doi:10.1364/OE.507270).
Abstract
Vortex beams that carry orbital angular moment (OAM) have recently attracted a great amount of research interest, and metasurfaces and planar microcavities have emerged as two prominent, but mostly separated, methods for Si chip-based vortex beam emission. In this work, we demonstrate in numerical simulation for the first time the hybridization of these two existing methods in a Si chip-based passive emitter (i.e., a light coupler). A unique feature of this device is its broken conjugate symmetry, which originates from introducing a metasurface phase gradient along a microring. The broken conjugate symmetry creates a new phenomenon that we refer to as asymmetric vortex beam emission. It allows two opposite input directions to generate two independent sets of OAM values, a capability that has never been reported before in Si chip-based passive emitters. In addition, we have also developed here a new analytical method to extract the OAM spectrum from a vector vortex beam. This analytical method will prove to be useful for vector vortex beam analysis, as mode purity analysis has rarely been reported in literature due to the complexity of the full-vector nature of such beams. This study provides new approaches for both the design and the analysis of integrated vortex beam emission, which could be utilized in many applications such as free-space optical communications and microfluidic particle manipulation.
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Asymmetric vortex beam emission from a metasurface-integrated microring with broken conjugate symmetry
- Accepted Manuscript
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oe-31-25-42549
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Published date: 4 December 2023
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Funding Information:
The authors acknowledge the use of the IRIDIS High Performance Computing Facility, and associated support services at the University of Southampton, in the completion of this work.
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© 2023 OSA - The Optical Society. All rights reserved.
Identifiers
Local EPrints ID: 485366
URI: http://eprints.soton.ac.uk/id/eprint/485366
ISSN: 1094-4087
PURE UUID: 78f10f13-b1dd-44ef-863d-88854e03e86b
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Date deposited: 05 Dec 2023 17:36
Last modified: 18 Mar 2024 03:33
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Author:
Jianzhi Huang
Author:
Wangke Yu
Author:
Hailong Pi
Author:
Yijie Shen
Author:
Xu Fang
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