Characterization of strongly coupled si-wire waveguides for high-density optical WDM and sensing applications
Characterization of strongly coupled si-wire waveguides for high-density optical WDM and sensing applications
This paper presents theoretical and experimental study of ultra-compact Si-wire Optical Directional Couplers (ODCs) on Silicon-on-Insulator wafer for optical signal processing. The presence of the controllable evanescent light strongly confined in the region bounded by the Si nano-wires has a large impact on the optical power coupling between waveguides. The characteristics of coupling length and power transmission in ODCs based on separation, wavelength, light field propagation distance and geometry of waveguides are described in detail by the coupled mode theory, 3-D finite-difference time-domain analysis and beam propagation method, and are confirmed by experiments. The exponential dependency of coupling length on the separation of coupled waveguides and wavelength shows interesting high-sensitivity optical sensing, switching and multiplexing properties. Custom spectral properties can be achieved by the configuration of coupled nano-wire waveguides based on their separation and lengths. We show that optimization of ODCs based on the physics of the coupled waveguides will lead to short optical devices which can be integrated as building blocks within high-density photonic circuits with the desired spectral characteristics. In the end, two new systems based on Mach-Zehnder structure and Micro-Ring Resonators are proposed in which ODCs are implemented as embedded tunable devices resulting in more functional optical sensing and signal processing devices.
3469-3476
Bakhtiari Gorajoobi, S.B.
ba37e5f9-6a5e-4beb-82eb-b932613fba55
Kaykisiz, M.M.
3e2b8d62-097b-4bae-91e3-998c25e2c68a
Bulgan, E.
95545d9a-2aa8-4520-9b37-bae7c6108cd0
2 October 2013
Bakhtiari Gorajoobi, S.B.
ba37e5f9-6a5e-4beb-82eb-b932613fba55
Kaykisiz, M.M.
3e2b8d62-097b-4bae-91e3-998c25e2c68a
Bulgan, E.
95545d9a-2aa8-4520-9b37-bae7c6108cd0
Bakhtiari Gorajoobi, S.B., Kaykisiz, M.M. and Bulgan, E.
(2013)
Characterization of strongly coupled si-wire waveguides for high-density optical WDM and sensing applications.
Journal of Lightwave Technology, 31 (12), .
(doi:10.1109/JLT.2013.2284246).
Abstract
This paper presents theoretical and experimental study of ultra-compact Si-wire Optical Directional Couplers (ODCs) on Silicon-on-Insulator wafer for optical signal processing. The presence of the controllable evanescent light strongly confined in the region bounded by the Si nano-wires has a large impact on the optical power coupling between waveguides. The characteristics of coupling length and power transmission in ODCs based on separation, wavelength, light field propagation distance and geometry of waveguides are described in detail by the coupled mode theory, 3-D finite-difference time-domain analysis and beam propagation method, and are confirmed by experiments. The exponential dependency of coupling length on the separation of coupled waveguides and wavelength shows interesting high-sensitivity optical sensing, switching and multiplexing properties. Custom spectral properties can be achieved by the configuration of coupled nano-wire waveguides based on their separation and lengths. We show that optimization of ODCs based on the physics of the coupled waveguides will lead to short optical devices which can be integrated as building blocks within high-density photonic circuits with the desired spectral characteristics. In the end, two new systems based on Mach-Zehnder structure and Micro-Ring Resonators are proposed in which ODCs are implemented as embedded tunable devices resulting in more functional optical sensing and signal processing devices.
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Published date: 2 October 2013
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Local EPrints ID: 441544
URI: http://eprints.soton.ac.uk/id/eprint/441544
ISSN: 0733-8724
PURE UUID: dc2c661a-52b4-4e7b-9f47-eb366f7bfb46
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Date deposited: 17 Jun 2020 16:31
Last modified: 16 Mar 2024 08:16
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Author:
S.B. Bakhtiari Gorajoobi
Author:
M.M. Kaykisiz
Author:
E. Bulgan
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