Application of the G'/G expansion method in ultrashort pulses in nonlinear optical fibers
Application of the G'/G expansion method in ultrashort pulses in nonlinear optical fibers
With the increasing input power in optical fibers, the dispersion problem is becoming a severe restriction on wavelength division multiplexing (WDM). With the aid of solitons, in which the shape and speed can remain constant during propagation, it is expected that the transmission of nonlinear ultrashort pulses in optical fibers can effectively control the dispersion. The propagation of a nonlinear ultrashort laser pulse in an optical fiber, which fits the high-order nonlinear Schrödinger equation (NLSE), has been solved using the expansion method. Group velocity dispersion, self-phase modulation, the fourth-order dispersion, and the fifth-order nonlinearity of the high-order NLSE were taken into consideration. A series of solutions has been obtained such as the solitary wave solutions of kink, inverse kink, the tangent trigonometric function, and the cotangent trigonometric function. The results have shown that the expansion method is an effective way to obtain the exact solutions for the high-order NLSE, and it provides a theoretical basis for the transmission of ultrashort pulses in nonlinear optical fibers
1-5
Jiang, Xing-Fang
c8dff56f-4522-49bd-a31b-04164c0f194b
Wang, Jun
dac45864-634f-41ec-ba2a-1e59ad23ae97
Wei, Jian-Ping
15e1b3ee-7516-475a-aa69-2ed0f3605786
Hua, Ping
92fa76e2-970b-45f5-a459-d9f95e735303
2013
Jiang, Xing-Fang
c8dff56f-4522-49bd-a31b-04164c0f194b
Wang, Jun
dac45864-634f-41ec-ba2a-1e59ad23ae97
Wei, Jian-Ping
15e1b3ee-7516-475a-aa69-2ed0f3605786
Hua, Ping
92fa76e2-970b-45f5-a459-d9f95e735303
Jiang, Xing-Fang, Wang, Jun, Wei, Jian-Ping and Hua, Ping
(2013)
Application of the G'/G expansion method in ultrashort pulses in nonlinear optical fibers.
Advances in Optical Technologies, 2013, , [636472].
(doi:10.1155/2013/636472).
Abstract
With the increasing input power in optical fibers, the dispersion problem is becoming a severe restriction on wavelength division multiplexing (WDM). With the aid of solitons, in which the shape and speed can remain constant during propagation, it is expected that the transmission of nonlinear ultrashort pulses in optical fibers can effectively control the dispersion. The propagation of a nonlinear ultrashort laser pulse in an optical fiber, which fits the high-order nonlinear Schrödinger equation (NLSE), has been solved using the expansion method. Group velocity dispersion, self-phase modulation, the fourth-order dispersion, and the fifth-order nonlinearity of the high-order NLSE were taken into consideration. A series of solutions has been obtained such as the solitary wave solutions of kink, inverse kink, the tangent trigonometric function, and the cotangent trigonometric function. The results have shown that the expansion method is an effective way to obtain the exact solutions for the high-order NLSE, and it provides a theoretical basis for the transmission of ultrashort pulses in nonlinear optical fibers
Text
636472 (1)
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Published date: 2013
Organisations:
Optoelectronics Research Centre
Identifiers
Local EPrints ID: 361440
URI: http://eprints.soton.ac.uk/id/eprint/361440
ISSN: 1687-6393
PURE UUID: 1cd1abac-8320-44df-a536-2c60b9643ddb
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Date deposited: 23 Jan 2014 12:50
Last modified: 14 Mar 2024 15:51
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Author:
Xing-Fang Jiang
Author:
Jun Wang
Author:
Jian-Ping Wei
Author:
Ping Hua
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