Photonic crystal cavities embedded in photonic wire waveguides
Photonic crystal cavities embedded in photonic wire waveguides
This paper describes the realization of high quality-factor (Q-factor) and high transmission photonic crystal micro-cavity and extended cavity structures embedded in photonic wire waveguides. Q-factor of as much as 16600 have been achieved in micro-cavities with transmission of more than 80%. We have also fabricated an 8 ?m long extended cavity with a measured Q-factor of 5100 with normalised transmission of around 67%. Three-dimensional (3D) Finite Difference Time Domain (FDTD) computation has been used to simulate the devices. Comparison of the simulation and measured result shows reasonably good agreement.
Zain, Ahmad R Md
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Chong, Harold M H
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Gnan, M
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Samarelli, A
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Sorel, Marc
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De La Rue, R M
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Serpenguzel, Ali
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Badenes, Goncal
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Righini, Giancarlo C
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12 June 2007
Zain, Ahmad R Md
4dc68747-b252-443f-a3ae-1557a65562bc
Chong, Harold M H
795aa67f-29e5-480f-b1bc-9bd5c0d558e1
Gnan, M
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Samarelli, A
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Sorel, Marc
ad695af9-51a6-403c-8998-3cdf2c57152c
De La Rue, R M
f172f931-c862-4a66-a3a4-731e362174da
Serpenguzel, Ali
cd4a578d-c076-4089-9849-b1294a620bce
Badenes, Goncal
69ede826-fa7b-4cf2-9735-7276d6380ee5
Righini, Giancarlo C
dff96aa1-ac9b-4d12-97f6-57e5f904e0f2
Zain, Ahmad R Md, Chong, Harold M H, Gnan, M, Samarelli, A, Sorel, Marc and De La Rue, R M
(2007)
Photonic crystal cavities embedded in photonic wire waveguides.
Serpenguzel, Ali, Badenes, Goncal and Righini, Giancarlo C
(eds.)
SPIE.
Record type:
Conference or Workshop Item
(Paper)
Abstract
This paper describes the realization of high quality-factor (Q-factor) and high transmission photonic crystal micro-cavity and extended cavity structures embedded in photonic wire waveguides. Q-factor of as much as 16600 have been achieved in micro-cavities with transmission of more than 80%. We have also fabricated an 8 ?m long extended cavity with a measured Q-factor of 5100 with normalised transmission of around 67%. Three-dimensional (3D) Finite Difference Time Domain (FDTD) computation has been used to simulate the devices. Comparison of the simulation and measured result shows reasonably good agreement.
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More information
Published date: 12 June 2007
Venue - Dates:
SPIE, 2007-06-11
Organisations:
Nanoelectronics and Nanotechnology
Identifiers
Local EPrints ID: 264903
URI: http://eprints.soton.ac.uk/id/eprint/264903
PURE UUID: 38c29a0d-7cf3-48f2-8a3b-7a823adb7840
Catalogue record
Date deposited: 27 Nov 2007 16:08
Last modified: 08 Jan 2022 03:07
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Contributors
Author:
Ahmad R Md Zain
Author:
Harold M H Chong
Author:
M Gnan
Author:
A Samarelli
Author:
Marc Sorel
Author:
R M De La Rue
Editor:
Ali Serpenguzel
Editor:
Goncal Badenes
Editor:
Giancarlo C Righini
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