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236mW average second-harmonic power generated from periodically poled silica fibres

236mW average second-harmonic power generated from periodically poled silica fibres
236mW average second-harmonic power generated from periodically poled silica fibres
Thermally poled silica fibres are an attractive all-fibre solution to frequency conversion of high power fibre lasers. In comparison to nonlinear crystals, they offer inherently lower insertion losses, higher optical damage threshold, greater stability and ruggedness intrinsic to all-fibre solutions. Moreover, the relatively low second-order-nonlinearity (0.1-0.2pm/V) can be compensated by extending the length of the periodically poled fibre.
Canagasabey, Albert
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Corbari, Costantino
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Liegeois, Flavien
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Gladyshev, Alexey V.
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Guillemet, Sebastien
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Hernandez, Yves
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Yashkov, Mikhail V.
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Kosolapov, Alexey
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Dianov, Evgeny M.
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Ibsen, Morten
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Kazansky, Peter G.
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Canagasabey, Albert
2710a07f-176d-414d-b8a4-1967639ce31d
Corbari, Costantino
273904e8-5f90-4110-bc17-3d3f2c27d461
Liegeois, Flavien
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Gladyshev, Alexey V.
f178f1b2-c3fa-4b63-96e8-b6e356218b84
Guillemet, Sebastien
000bea00-eb3c-4705-ab16-4269db199e98
Hernandez, Yves
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Yashkov, Mikhail V.
c9e4ea8b-0fe6-4d7f-b5db-fb622049e77d
Kosolapov, Alexey
ed7d4da4-cbfc-4ec1-a36d-0e0d5ef9b1e1
Dianov, Evgeny M.
9ffd4cdc-4c35-4bfb-b67d-2335cc8ee810
Ibsen, Morten
22e58138-5ce9-4bed-87e1-735c91f8f3b9
Kazansky, Peter G.
a5d123ec-8ea8-408c-8963-4a6d921fd76c

Canagasabey, Albert, Corbari, Costantino, Liegeois, Flavien, Gladyshev, Alexey V., Guillemet, Sebastien, Hernandez, Yves, Yashkov, Mikhail V., Kosolapov, Alexey, Dianov, Evgeny M., Ibsen, Morten and Kazansky, Peter G. (2009) 236mW average second-harmonic power generated from periodically poled silica fibres. European Conference on Lasers and Electro-Optics (CLEO/Europe-EQEC), , Munich, Germany. 14 - 19 Jun 2009.

Record type: Conference or Workshop Item (Paper)

Abstract

Thermally poled silica fibres are an attractive all-fibre solution to frequency conversion of high power fibre lasers. In comparison to nonlinear crystals, they offer inherently lower insertion losses, higher optical damage threshold, greater stability and ruggedness intrinsic to all-fibre solutions. Moreover, the relatively low second-order-nonlinearity (0.1-0.2pm/V) can be compensated by extending the length of the periodically poled fibre.

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Published date: 14 June 2009
Venue - Dates: European Conference on Lasers and Electro-Optics (CLEO/Europe-EQEC), , Munich, Germany, 2009-06-14 - 2009-06-19

Identifiers

Local EPrints ID: 78979
URI: http://eprints.soton.ac.uk/id/eprint/78979
PURE UUID: 488ea2dd-ecc6-42fb-9e98-a46a549d1562

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Date deposited: 19 Mar 2010
Last modified: 14 Mar 2024 00:26

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Contributors

Author: Albert Canagasabey
Author: Costantino Corbari
Author: Flavien Liegeois
Author: Alexey V. Gladyshev
Author: Sebastien Guillemet
Author: Yves Hernandez
Author: Mikhail V. Yashkov
Author: Alexey Kosolapov
Author: Evgeny M. Dianov
Author: Morten Ibsen

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