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Nano-scale ultraviolet laser-induced ferroelectric surface domains in lithium niobate

Nano-scale ultraviolet laser-induced ferroelectric surface domains in lithium niobate
Nano-scale ultraviolet laser-induced ferroelectric surface domains in lithium niobate
Microstructuring of ferroelectric domain patterns is necessary to achieve quasi-phase-matching (QPM) in nonlinear crystals for efficient frequency conversion. The preferred method for engineering the domain structure in lithium niobate is currently electric field poling, where a lithographically-defined electrode pattern on a z crystalline face delivers a large electric field in excess of the coercive field, forming a spatially selective domain-inverted pattern within the crystal.
p.269
Valdivia, C.E.
d9e77b23-1e72-4302-a11c-e6af43f0e518
Sones, Collin
9de9d8ee-d394-46a5-80b7-e341c0eed0a8
Scott, J.G.
a5e576f1-39c6-4c3b-a0e2-42e388e9b583
Mailis, Sakellaris
233e0768-3f8d-430e-8fdf-92e6f4f6a0c4
Eason, R.W.
e38684c3-d18c-41b9-a4aa-def67283b020
Scrymgeour, D.A.
c0b8c62e-b21e-4691-83f2-d3eaf539d601
Gopalan, V.
7927bd73-45f5-4501-a160-d294652c3fe0
Clark, I.
6f1cb4ac-177e-46f1-bcc7-cde06d12fb95
CLEO/Europe
Valdivia, C.E.
d9e77b23-1e72-4302-a11c-e6af43f0e518
Sones, Collin
9de9d8ee-d394-46a5-80b7-e341c0eed0a8
Scott, J.G.
a5e576f1-39c6-4c3b-a0e2-42e388e9b583
Mailis, Sakellaris
233e0768-3f8d-430e-8fdf-92e6f4f6a0c4
Eason, R.W.
e38684c3-d18c-41b9-a4aa-def67283b020
Scrymgeour, D.A.
c0b8c62e-b21e-4691-83f2-d3eaf539d601
Gopalan, V.
7927bd73-45f5-4501-a160-d294652c3fe0
Clark, I.
6f1cb4ac-177e-46f1-bcc7-cde06d12fb95

Valdivia, C.E., Sones, Collin, Scott, J.G., Mailis, Sakellaris, Eason, R.W., Scrymgeour, D.A., Gopalan, V. and Clark, I. (2005) Nano-scale ultraviolet laser-induced ferroelectric surface domains in lithium niobate. CLEO/Europe 2005: European Conference on Lasers and Electro-Optics. 12 - 17 Jun 2005. p.269 . (doi:10.1109/CLEOE.2005.1568054).

Record type: Conference or Workshop Item (Paper)

Abstract

Microstructuring of ferroelectric domain patterns is necessary to achieve quasi-phase-matching (QPM) in nonlinear crystals for efficient frequency conversion. The preferred method for engineering the domain structure in lithium niobate is currently electric field poling, where a lithographically-defined electrode pattern on a z crystalline face delivers a large electric field in excess of the coercive field, forming a spatially selective domain-inverted pattern within the crystal.

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More information

Published date: 2005
Additional Information: CE1-3-MON (oral, invited), Lithium niobate domain patterning
Venue - Dates: CLEO/Europe 2005: European Conference on Lasers and Electro-Optics, 2005-06-12 - 2005-06-17

Identifiers

Local EPrints ID: 38332
URI: https://eprints.soton.ac.uk/id/eprint/38332
PURE UUID: 3927ef66-a074-4111-add0-faea085203b1
ORCID for Sakellaris Mailis: ORCID iD orcid.org/0000-0001-8100-2670
ORCID for R.W. Eason: ORCID iD orcid.org/0000-0001-9704-2204

Catalogue record

Date deposited: 09 Jun 2006
Last modified: 20 Jul 2019 01:25

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Contributors

Author: C.E. Valdivia
Author: Collin Sones
Author: J.G. Scott
Author: R.W. Eason ORCID iD
Author: D.A. Scrymgeour
Author: V. Gopalan
Author: I. Clark

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