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Ultra-high-Q integrated flame hydrolysis deposited Germano-silica resonators on silicon

Ultra-high-Q integrated flame hydrolysis deposited Germano-silica resonators on silicon
Ultra-high-Q integrated flame hydrolysis deposited Germano-silica resonators on silicon

Flame hydrolysis deposition is used to create integrated optical resonators with Q factors greater than 100 million. Absorption-limited Q factors up to 440 million are measured.

Electro-optical waveguides, Fires, Hydrolysis, Lasers and electrooptics, Measurement by laser beam, Optical resonators, Q measurement, Q-factor, Resonators, Silicon
IEEE
Chen, Hao Jing
38e7c93d-3cb8-4ccc-88a7-7c058b6fe47a
Colburn, Kellan
3042ec2b-3cde-4fb5-b869-dc6c75d5e442
Liu, Jin Yu
81874d29-f1be-441c-9d85-db5bf9f350a4
Wu, Lue
97fc16dd-4b9a-40d5-b8b4-a94b39d835e3
Moog, Bruno
fb647fef-2caa-44b3-8157-2b141f5d8cf5
Holmes, Christopher
2ec659eb-2bd3-460a-aa8d-5538eb1aeb25
Gates, James
b71e31a1-8caa-477e-8556-b64f6cae0dc2
Blauvelt, Henry
f031c191-fdbf-4778-b7c2-8427db6df9d9
Vahala, Kerry
42cf33c0-8c48-4025-b28e-23a4dcdf8412
Chen, Hao Jing
38e7c93d-3cb8-4ccc-88a7-7c058b6fe47a
Colburn, Kellan
3042ec2b-3cde-4fb5-b869-dc6c75d5e442
Liu, Jin Yu
81874d29-f1be-441c-9d85-db5bf9f350a4
Wu, Lue
97fc16dd-4b9a-40d5-b8b4-a94b39d835e3
Moog, Bruno
fb647fef-2caa-44b3-8157-2b141f5d8cf5
Holmes, Christopher
2ec659eb-2bd3-460a-aa8d-5538eb1aeb25
Gates, James
b71e31a1-8caa-477e-8556-b64f6cae0dc2
Blauvelt, Henry
f031c191-fdbf-4778-b7c2-8427db6df9d9
Vahala, Kerry
42cf33c0-8c48-4025-b28e-23a4dcdf8412

Chen, Hao Jing, Colburn, Kellan, Liu, Jin Yu, Wu, Lue, Moog, Bruno, Holmes, Christopher, Gates, James, Blauvelt, Henry and Vahala, Kerry (2024) Ultra-high-Q integrated flame hydrolysis deposited Germano-silica resonators on silicon. In 2024 Conference on Lasers and Electro-Optics, CLEO 2024. IEEE.. (doi:10.1364/cleo_si.2024.stu3q.5).

Record type: Conference or Workshop Item (Paper)

Abstract

Flame hydrolysis deposition is used to create integrated optical resonators with Q factors greater than 100 million. Absorption-limited Q factors up to 440 million are measured.

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More information

Published date: 2024
Venue - Dates: 2024 Conference on Lasers and Electro-Optics, CLEO 2024, , Charlotte, United States, 2024-05-07 - 2024-05-10
Keywords: Electro-optical waveguides, Fires, Hydrolysis, Lasers and electrooptics, Measurement by laser beam, Optical resonators, Q measurement, Q-factor, Resonators, Silicon

Identifiers

Local EPrints ID: 499691
URI: http://eprints.soton.ac.uk/id/eprint/499691
DOI: doi:10.1364/cleo_si.2024.stu3q.5
PURE UUID: 9e69c329-276e-466a-8934-ca566d78dc4b
ORCID for James Gates: ORCID iD orcid.org/0000-0001-8671-5987

Catalogue record

Date deposited: 31 Mar 2025 16:53
Last modified: 01 Apr 2025 01:37

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Contributors

Author: Hao Jing Chen
Author: Kellan Colburn
Author: Jin Yu Liu
Author: Lue Wu
Author: Bruno Moog
Author: Christopher Holmes
Author: James Gates ORCID iD
Author: Henry Blauvelt
Author: Kerry Vahala

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