Dispersion-adapted monomode fiber for propagation of nonlinear pulses

Dispersion-adapted monomode fiber for propagation of nonlinear pulses

A method of compensating for attenuation in optical fiber systems which uses nonlinear wave propagation (solitons) to achieve high data capacity is discussed. This method is based on adjusting the dispersion parameter of the fiber as a function of the signal intensity along the fiber. A practical im...

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Bibliographic Details
Published in:Journal of lightwave technology Vol. 7; no. 2; pp. 353 - 357
Main Authors: Bordon, E.E., Anderson, W.L.
Format: Journal Article
Language:English
Published: New York, NY IEEE 01-02-1989
Institute of Electrical and Electronics Engineers
Subjects:
Applied sciences
Circuit properties
Electric, optical and optoelectronic circuits
Electronics
Exact sciences and technology
Fiber nonlinear optics
Integrated optics. Optical fibers and wave guides
Optical and optoelectronic circuits
Optical attenuators
Optical fiber dispersion
Optical fibers
Optical pulses
Optical pumping
Optical refraction
Optical solitons
Optical variables control
Shape
Optical fiber
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Summary:A method of compensating for attenuation in optical fiber systems which uses nonlinear wave propagation (solitons) to achieve high data capacity is discussed. This method is based on adjusting the dispersion parameter of the fiber as a function of the signal intensity along the fiber. A practical implementation of this method, where the fiber is fabricated with variable diameter, continuously adjusted during the drawing is proposed. The fiber tapering necessary to maintain a perfect balance in the nonlinear wave is sufficiently gradual to prevent additional losses. The shape of a signal in the form of an order-one soliton can then be kept invariant. A possible engineering approach where the continuously varying fiber is approximated by discrete sections is suggested.< >
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0733-8724
1558-2213
DOI:10.1109/50.17779