Multisoliton solutions and energy sharing collisions in coupled nonlinear Schrodinger equations with focusing, defocusing and mixed type nonlinearities

Vijayajayanthi, M. ; Kanna, T. ; Lakshmanan, M. (2009) Multisoliton solutions and energy sharing collisions in coupled nonlinear Schrodinger equations with focusing, defocusing and mixed type nonlinearities European Physical Journal - Special Topics, 173 (1). pp. 57-80. ISSN 1951-6355

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Official URL: http://www.springerlink.com/content/5202688p256816...

Related URL: http://dx.doi.org/10.1140/epjst/e2009-01067-9

Abstract

Bright and bright-dark type multisoliton solutions of the integrable N-coupled nonlinear Schrodinger (CNLS) equations with focusing, defocusing and mixed type nonlinearities are obtained by using Hirota's bilinearization method. Particularly, for the bright soliton case, we present the Gram type determinant form of the n-soliton solution (n:arbitrary) for both focusing and mixed type nonlinearities and explicitly prove that the determinant form indeed satisfies the corresponding bilinear equations. Based on this, we also write down the multisoliton form for the mixed (bright-dark) type solitons. For the focusing and mixed type nonlinearities with vanishing boundary conditions the pure bright solitons exhibit different kinds of nontrivial shape changing/energy sharing collisions characterized by intensity redistribution, amplitude dependent phase-shift and change in relative separation distances. Due to nonvanishing boundary conditions the mixed N-CNLS system can admit coupled bright-dark solitons. Here we show that the bright solitons exhibit nontrivial energy sharing collision only if they are spread up in two or more components, while the dark solitons appearing in the remaining components undergo mere standard elastic collisions. Energy sharing collisions lead to exciting applications such as collision based optical computing and soliton amplification. Finally, we briefly discuss the energy sharing collision properties of the solitons of the (2+1) dimensional long wave-short wave resonance interaction (LSRI) system.

Item Type:Article
Source:Copyright of this article belongs to Springer-Verlag.
ID Code:19659
Deposited On:22 Nov 2010 12:09
Last Modified:07 Jun 2011 05:30

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