Raw data for manuscript "Ultrahigh-Q photonic crystal cavities in silicon rich nitride"
Raw data for manuscript "Ultrahigh-Q photonic crystal cavities in silicon rich nitride"
Dataset supports:
Debnath, K. et al (2017). Ultrahigh-Q photonic crystal cavities in silicon rich nitride. Optics Express, 25(22), 27334-27340.Ultrahigh-Q Photonic Crystal cavities were realized in a suspended Silicon Rich Nitride (SiNx) platform for applications at telecom wavelengths. Using a line width modulated cavity design we achieved a simulated Q of 520,000. The fabricated cavities were measured using the resonance scattering technique and we demonstrated a measured Q of 120,000. From the experimental spectra at different input power, we also show that the non-linear losses are negligible in this material platform.
University of Southampton
Debnath, Kapil
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Clementi, Marco
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Dominguez Bucio, Thalia
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Khokhar, Ali
2eedd1cc-8ac5-4f8e-be25-930bd3eae396
Sotto, Moise, Sala Henri
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Grabska, Katarzyna, Monika
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Bajoni, Daniele
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Galli, Matteo
72eb7b31-390d-4a79-bad5-2da07a886056
Saito, Shinichi
14a5d20b-055e-4f48-9dda-267e88bd3fdc
Gardes, Frederic
7a49fc6d-dade-4099-b016-c60737cb5bb2
Debnath, Kapil
aa01749d-524b-4464-b90a-af072e92a02f
Clementi, Marco
eeab5fd8-ef21-4fd0-b71f-1fa6026b6a8c
Dominguez Bucio, Thalia
83b57799-c566-473c-9b53-92e9c50b4287
Khokhar, Ali
2eedd1cc-8ac5-4f8e-be25-930bd3eae396
Sotto, Moise, Sala Henri
2e7797fc-4433-4513-bd08-03ab7839452c
Grabska, Katarzyna, Monika
5f82b736-08ad-4ddb-9f6a-01eea5f9975f
Bajoni, Daniele
15fe760a-52f2-4156-b963-10b5f5860bb1
Galli, Matteo
72eb7b31-390d-4a79-bad5-2da07a886056
Saito, Shinichi
14a5d20b-055e-4f48-9dda-267e88bd3fdc
Gardes, Frederic
7a49fc6d-dade-4099-b016-c60737cb5bb2
Debnath, Kapil
(2018)
Raw data for manuscript "Ultrahigh-Q photonic crystal cavities in silicon rich nitride".
University of Southampton
doi:10.5258/SOTON/D0212
[Dataset]
Abstract
Dataset supports:
Debnath, K. et al (2017). Ultrahigh-Q photonic crystal cavities in silicon rich nitride. Optics Express, 25(22), 27334-27340.Ultrahigh-Q Photonic Crystal cavities were realized in a suspended Silicon Rich Nitride (SiNx) platform for applications at telecom wavelengths. Using a line width modulated cavity design we achieved a simulated Q of 520,000. The fabricated cavities were measured using the resonance scattering technique and we demonstrated a measured Q of 120,000. From the experimental spectra at different input power, we also show that the non-linear losses are negligible in this material platform.
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Figure_metadata.xlsx
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More information
Published date: 20 February 2018
Organisations:
ORC Research, Optoelectronics Research Centre, Electronics & Computer Science, Nanoelectronics and Nanotechnology, Photonic Systems Circuits & Sensors
Identifiers
Local EPrints ID: 415389
URI: https://eprints.soton.ac.uk/id/eprint/415389
PURE UUID: 09b34a3a-c141-438d-b685-1d63b44f22ed
Catalogue record
Date deposited: 08 Nov 2017 17:31
Last modified: 07 Nov 2018 01:30
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Contributors
Creator:
Kapil Debnath
Contributor:
Marco Clementi
Contributor:
Ali Khokhar
Contributor:
Moise, Sala Henri Sotto
Contributor:
Katarzyna, Monika Grabska
Contributor:
Daniele Bajoni
Contributor:
Matteo Galli
Contributor:
Shinichi Saito
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