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UV laser-induced current in germanosilicate fibres with built in electrodes

UV laser-induced current in germanosilicate fibres with built in electrodes
UV laser-induced current in germanosilicate fibres with built in electrodes
The nature of photocurrents is studied in germano-silicate single-mode fibres with built in electrodes. It is shown that irradiation by excimer KrF laser pulses at electric field intensities up to 1.6 MV cm-1 there causes a charge formation and transfer in the core of the fibre and the injection of photoelectrons from metal electrodes to the fibre cladding. Both effects facilitate the flow of electric current through the sample. The dependences of the photocurrent on the electric field strength, the energy density in the loser pulse, the fibre temperature, and the impurity hydrogen in the fibre core are obtained.
1063-7818
236-240
Rybaltovskii, A.O.
44dcfeb9-05d6-4603-b043-f0451236e13c
Bagratashvili, V.N.
aaee958a-7cc8-415e-ab28-1ef0cca4dbf3
Chernov, P.V.
328936fd-34d4-4320-977a-b5beac2e0241
Kazansky, P.G.
a5d123ec-8ea8-408c-8963-4a6d921fd76c
Pruneri, V.
4daa2243-cf73-4ee5-a220-93928d1669c5
Tsypina, S.I.
f9802189-0c7d-48d6-a023-ca053de5f82d
Zavorotnyi, Y.S.
ba66f5e8-6f2f-4d54-b8f6-c248ff0ec173
Rybaltovskii, A.O.
44dcfeb9-05d6-4603-b043-f0451236e13c
Bagratashvili, V.N.
aaee958a-7cc8-415e-ab28-1ef0cca4dbf3
Chernov, P.V.
328936fd-34d4-4320-977a-b5beac2e0241
Kazansky, P.G.
a5d123ec-8ea8-408c-8963-4a6d921fd76c
Pruneri, V.
4daa2243-cf73-4ee5-a220-93928d1669c5
Tsypina, S.I.
f9802189-0c7d-48d6-a023-ca053de5f82d
Zavorotnyi, Y.S.
ba66f5e8-6f2f-4d54-b8f6-c248ff0ec173

Rybaltovskii, A.O., Bagratashvili, V.N., Chernov, P.V., Kazansky, P.G., Pruneri, V., Tsypina, S.I. and Zavorotnyi, Y.S. (2001) UV laser-induced current in germanosilicate fibres with built in electrodes. Quantum Electronics, 31 (3), 236-240. (doi:10.1070/QE2001v031n03ABEH001924).

Record type: Article

Abstract

The nature of photocurrents is studied in germano-silicate single-mode fibres with built in electrodes. It is shown that irradiation by excimer KrF laser pulses at electric field intensities up to 1.6 MV cm-1 there causes a charge formation and transfer in the core of the fibre and the injection of photoelectrons from metal electrodes to the fibre cladding. Both effects facilitate the flow of electric current through the sample. The dependences of the photocurrent on the electric field strength, the energy density in the loser pulse, the fibre temperature, and the impurity hydrogen in the fibre core are obtained.

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Published date: 2001
Organisations: Optoelectronics Research Centre
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Identifiers

Local EPrints ID: 13675
URI: http://eprints.soton.ac.uk/id/eprint/13675
DOI: doi:10.1070/QE2001v031n03ABEH001924
ISSN: 1063-7818
PURE UUID: 9a89663d-c27a-47d6-a7cd-e9afae302359

Catalogue record

Date deposited: 22 Dec 2004
Last modified: 15 Mar 2024 05:09

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Contributors

Author: A.O. Rybaltovskii
Author: V.N. Bagratashvili
Author: P.V. Chernov
Author: P.G. Kazansky
Author: V. Pruneri
Author: S.I. Tsypina
Author: Y.S. Zavorotnyi

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