On the possibility of soliton generation at 1.06 microns
On the possibility of soliton generation at 1.06 microns
The possibility of soliton generation in silica fibres at 1060 nm have been theoretically demonstrated by means of compensating the material dispersion by negative waveguide dispersion. Such fibres may be used for the creation of passively mode-locked soliton fibre lasers capable of generating sub-100 fs pulses in the region of maximum gain of Nd-glass lasers.
261-264
Goncharenko, I.A.
78c1c6ab-27ba-44af-9638-ecfba7473b62
Grudinin, A.B.
8f50b467-7d60-46db-b29d-a89b1059a1d8
Payne, D.N.
4f592b24-707f-456e-b2c6-8a6f750e296d
1995
Goncharenko, I.A.
78c1c6ab-27ba-44af-9638-ecfba7473b62
Grudinin, A.B.
8f50b467-7d60-46db-b29d-a89b1059a1d8
Payne, D.N.
4f592b24-707f-456e-b2c6-8a6f750e296d
Goncharenko, I.A., Grudinin, A.B. and Payne, D.N.
(1995)
On the possibility of soliton generation at 1.06 microns.
Optics Communications, 115 (3-4), .
(doi:10.1016/0030-4018(94)00708-3).
Abstract
The possibility of soliton generation in silica fibres at 1060 nm have been theoretically demonstrated by means of compensating the material dispersion by negative waveguide dispersion. Such fibres may be used for the creation of passively mode-locked soliton fibre lasers capable of generating sub-100 fs pulses in the region of maximum gain of Nd-glass lasers.
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Published date: 1995
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Local EPrints ID: 78167
URI: http://eprints.soton.ac.uk/id/eprint/78167
ISSN: 0030-4018
PURE UUID: 0a80b500-81c3-474b-aa2c-29ac6cd5b12e
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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 00:08
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Author:
I.A. Goncharenko
Author:
A.B. Grudinin
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