Exact soliton solutions and long-time asymptotics of the Yajima-Oikawa equation via Riemann-Hilbert approach
Abstract: The Yajima-Oikawa equation is a deformation of the Zakharov equation which models the propagation of ion sound waves subject to the ponderomotive force induced by high-frequency Langmuir waves. In this work, we study the exact soliton solutions and long-time asymptotics of the Yajima-Oikawa equation by Riemann-Hilbert approach. The Riemann-Hilbert problem is formulated in terms of two reflection coefficients determined by the initial condition. Then exact soliton solutions associated with the Yajima-Oikawa equation are obtained based on this Riemann-Hilbert problem. Finally, the long-time asymptotics of solution to the Yajima-Oikawa equation in Zakharov-Manakov region is formulated by Deift-Zhou nonlinear steepest descent method.
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