A (2+1) dimensional integrable spin model: Geometrical and gauge equivalent counterpart, solitons and localized coherent structures

Alma-Ata; Bharathidasan University; Department of Physics; G. N. Nugmanova; India); Kazakstan); M. Lakshmanan (Centre for Nonlinear Dynamics; National Academy of Sciences; R. Myrzakulov (High Energy Physics Institute; S. Vijayalakshmi

arxiv: solv-int/9704005 · v1 · pith:YTWV7DVBnew · submitted 1997-04-06 · solv-int · nlin.SI

A (2+1) dimensional integrable spin model: Geometrical and gauge equivalent counterpart, solitons and localized coherent structures

R. Myrzakulov (High Energy Physics Institute , National Academy of Sciences , Alma-Ata , Kazakstan) , S. Vijayalakshmi , G. N. Nugmanova , M. Lakshmanan (Centre for Nonlinear Dynamics , Department of Physics

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Bharathidasan University Tiruchirapalli India)

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classification solv-int nlin.SI

keywords solutionsdimensionalequationlocalizedspinbilinearisedequivalentgauge

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A non-isospectral (2+1) dimensional integrable spin equation is investigated. It is shown that its geometrical and gauge equivalent counterparts is the (2+1) dimensional nonlinear Schr\"odinger equation introduced by Zakharov and studied recently by Strachan. Using a Hirota bilinearised form, line and curved soliton solutions are obtained. Using certain freedom (arbitrariness) in the solutions of the bilinearised equation, exponentially localized dromion-like solutions for the potential is found. Also, breaking soliton solutions (for the spin variables) of the shock wave type and algebraically localized nature are constructed.

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A (2+1) dimensional integrable spin model: Geometrical and gauge equivalent counterpart, solitons and localized coherent structures

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