Yb3+-doped silica WGM milled microrod laser
Yb3+-doped silica WGM milled microrod laser
A fast and versatile fabrication method for high Q milled microrod resonators, directly on rare-earth doped fibers, is demonstrated using a pulsed CO2 laser. Evanescently pumped WGM microlaser with ~9µW output power has been achieved.
Bakhtiari Gorajoobi, S.
ba37e5f9-6a5e-4beb-82eb-b932613fba55
Murugan, G.S.
a867686e-0535-46cc-ad85-c2342086b25b
Zervas, M.N.
1840a474-dd50-4a55-ab74-6f086aa3f701
Bakhtiari Gorajoobi, S.
ba37e5f9-6a5e-4beb-82eb-b932613fba55
Murugan, G.S.
a867686e-0535-46cc-ad85-c2342086b25b
Zervas, M.N.
1840a474-dd50-4a55-ab74-6f086aa3f701
Bakhtiari Gorajoobi, S., Murugan, G.S. and Zervas, M.N.
(2015)
Yb3+-doped silica WGM milled microrod laser.
CLEO '15, San Jose, United States.
10 - 15 May 2015.
2 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
A fast and versatile fabrication method for high Q milled microrod resonators, directly on rare-earth doped fibers, is demonstrated using a pulsed CO2 laser. Evanescently pumped WGM microlaser with ~9µW output power has been achieved.
More information
e-pub ahead of print date: May 2015
Additional Information:
SF1H.7
Venue - Dates:
CLEO '15, San Jose, United States, 2015-05-10 - 2015-05-15
Organisations:
Optoelectronics Research Centre
Identifiers
Local EPrints ID: 379020
URI: https://eprints.soton.ac.uk/id/eprint/379020
PURE UUID: b011116d-c9f0-4d11-b084-8b2faeed4cab
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Date deposited: 15 Jul 2015 14:23
Last modified: 20 Jul 2019 01:23
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