Wavelength conversion in a short length of a solid lead-silicate fibre

Wavelength conversion in a short length of a solid lead-silicate fibre

We experimentally demonstrate a four-wave-mixing-based wavelength conversion scheme at 1.55 µm using a 1.1-m length of highly nonlinear, dispersion tailored W-type lead-silicate optical fiber

Bibliographic Details
Main Authors:	Camerlingo, A. (Author), Parmigiani, F. (Author), Feng, X. (Author), Poletti, F. (Author), Horak, P. (Author), Loh, W.H (Author), Richardson, D.J (Author), Petropoulos, P. (Author)
Format:	Article
Language:	English
Published:	2010-05.
Subjects:	Article
Online Access:	Get fulltext


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042			\|a dc
100	1	0	\|a Camerlingo, A. \|e author
700	1	0	\|a Parmigiani, F. \|e author
700	1	0	\|a Feng, X. \|e author
700	1	0	\|a Poletti, F. \|e author
700	1	0	\|a Horak, P. \|e author
700	1	0	\|a Loh, W.H. \|e author
700	1	0	\|a Richardson, D.J. \|e author
700	1	0	\|a Petropoulos, P. \|e author
245	0	0	\|a Wavelength conversion in a short length of a solid lead-silicate fibre
260			\|c 2010-05.
856			\|z Get fulltext \|u https://eprints.soton.ac.uk/179547/1/4623.pdf
520			\|a We experimentally demonstrate a four-wave-mixing-based wavelength conversion scheme at 1.55 µm using a 1.1-m length of highly nonlinear, dispersion tailored W-type lead-silicate optical fiber
655	7		\|a Article