Chalcogenide glass thin films through inverted deposition and high velocity spinning
Chalcogenide glass thin films through inverted deposition and high velocity spinning
The fabrication of optical chalcogenide glass thin films through inverted deposition and high velocity spinning is presented. Good quality films up to 275µm thick, of this infrared transmitting material, with propagation loss of 0.3dB cm-1 at 1.064µm were engineered through this technique.
421-422
Mairaj, A.K.
69f81e26-b09f-4c34-83ee-4388f94fa147
Curry, R.J.
1ae2a4da-7efe-4333-a34e-0ec20ae95154
Hewak, D.W.
87c80070-c101-4f7a-914f-4cc3131e3db0
2004
Mairaj, A.K.
69f81e26-b09f-4c34-83ee-4388f94fa147
Curry, R.J.
1ae2a4da-7efe-4333-a34e-0ec20ae95154
Hewak, D.W.
87c80070-c101-4f7a-914f-4cc3131e3db0
Mairaj, A.K., Curry, R.J. and Hewak, D.W.
(2004)
Chalcogenide glass thin films through inverted deposition and high velocity spinning.
Electronics Letters, 40 (7), .
(doi:10.1049/el:20040307).
Abstract
The fabrication of optical chalcogenide glass thin films through inverted deposition and high velocity spinning is presented. Good quality films up to 275µm thick, of this infrared transmitting material, with propagation loss of 0.3dB cm-1 at 1.064µm were engineered through this technique.
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Published date: 2004
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Local EPrints ID: 13918
URI: http://eprints.soton.ac.uk/id/eprint/13918
ISSN: 0013-5194
PURE UUID: 5f47da95-5859-421f-9f39-1d327c2012aa
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Date deposited: 03 Jan 2005
Last modified: 15 Mar 2024 05:15
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Author:
A.K. Mairaj
Author:
R.J. Curry
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