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Light-induced self-written effects in bulk chalcogenide glass

Light-induced self-written effects in bulk chalcogenide glass
Light-induced self-written effects in bulk chalcogenide glass
A waveguide can be self-written by a beam of light propagating in a photosensitive material. We report the first observation of self-writing effects in bulk chalcogenide glass and investigate the influences of different writing beam sizes and powers. We observe increases in refractive index of 2.5×10-4 due to illumination at 1047 nm in Ce-doped Ga-La-S. Simulations of the self-writing process show a good agreement with the experimental results. This verifies our numerical model and allows the dynamics of this process to be explored. Using this knowledge, we predict the experimental parameters and conditions required to write waveguides, tapers, and ultimately complex three-dimensional (3-D) structures
self-writing, waveguide, photosensitivity, chalcogenide glass, channel, taper
0733-8724
78-85
Ljungström, A.M.
9ec0a123-e9d2-45f0-ba2c-3e95998dad39
Monro, T.M.
4f0295a8-d9ec-45a5-b72b-72908f2549bb
Ljungström, A.M.
9ec0a123-e9d2-45f0-ba2c-3e95998dad39
Monro, T.M.
4f0295a8-d9ec-45a5-b72b-72908f2549bb

Ljungström, A.M. and Monro, T.M. (2002) Light-induced self-written effects in bulk chalcogenide glass. IEEE Journal of Lightwave Technology, 20 (1), 78-85. (doi:10.1109/50.974821).

Record type: Article

Abstract

A waveguide can be self-written by a beam of light propagating in a photosensitive material. We report the first observation of self-writing effects in bulk chalcogenide glass and investigate the influences of different writing beam sizes and powers. We observe increases in refractive index of 2.5×10-4 due to illumination at 1047 nm in Ce-doped Ga-La-S. Simulations of the self-writing process show a good agreement with the experimental results. This verifies our numerical model and allows the dynamics of this process to be explored. Using this knowledge, we predict the experimental parameters and conditions required to write waveguides, tapers, and ultimately complex three-dimensional (3-D) structures

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Published date: 2002
Keywords: self-writing, waveguide, photosensitivity, chalcogenide glass, channel, taper
Organisations: Optoelectronics Research Centre
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 13813
URI: http://eprints.soton.ac.uk/id/eprint/13813
DOI: doi:10.1109/50.974821
ISSN: 0733-8724
PURE UUID: 53dcc1a8-db44-48f6-9e31-c498b4760548

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Date deposited: 06 Jan 2005
Last modified: 15 Mar 2024 05:12

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Contributors

Author: A.M. Ljungström
Author: T.M. Monro

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