International Journal of Technology

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Solitary Wave Solution of Higher Order Kadomstev-Petviashvili Equation for Complex Plasma


Affiliations
1 Department of Science and Humanities, College of Science and Technology, RUB, Bhutan
2 Department of Mathematics, R. G. Baruah College, Guwahati-781025, Assam, India
     

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The nonlinear wave phenomenon leading to the formation of coherent structures through solitary waves are studied in Kadomstev-Petviashvili (K-P) equation and modified K-P equations with the help of reductive perturbation technique. The K-P equation for complex plasma consisting of non-isothermal electrons and Maxwellian ions in cold dust with the effect of negative (positive) dust charge fluctuation is derived. Similarly different type mK-P equations for complex plasma consisting of trapped electrons and Maxwellian ions in cold dust with the effect of negative (positive) dust charge fluctuation are also derived by same reductive perturbation technique. The analytical solution of K-P equation and other higher order nonlinear wave equation such as mK-P equation are derived by well known tanh-method and dust acoustic solitary waves and shock waves propagation for different situation are reported, which could be relevant in case of different space and astrophysical plasmas including Saturn's F-ring and also in laboratory observation for both positive and negative dust charge fluctuation.

Keywords

Solitary Wave, K-P Equation, Reductive Perturbation Technique, Tanh-Method.
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  • Solitary Wave Solution of Higher Order Kadomstev-Petviashvili Equation for Complex Plasma

Abstract Views: 197  |  PDF Views: 1

Authors

Apul Narayan Dev
Department of Science and Humanities, College of Science and Technology, RUB, Bhutan
Jnanjyoti Sarma
Department of Mathematics, R. G. Baruah College, Guwahati-781025, Assam, India

Abstract


The nonlinear wave phenomenon leading to the formation of coherent structures through solitary waves are studied in Kadomstev-Petviashvili (K-P) equation and modified K-P equations with the help of reductive perturbation technique. The K-P equation for complex plasma consisting of non-isothermal electrons and Maxwellian ions in cold dust with the effect of negative (positive) dust charge fluctuation is derived. Similarly different type mK-P equations for complex plasma consisting of trapped electrons and Maxwellian ions in cold dust with the effect of negative (positive) dust charge fluctuation are also derived by same reductive perturbation technique. The analytical solution of K-P equation and other higher order nonlinear wave equation such as mK-P equation are derived by well known tanh-method and dust acoustic solitary waves and shock waves propagation for different situation are reported, which could be relevant in case of different space and astrophysical plasmas including Saturn's F-ring and also in laboratory observation for both positive and negative dust charge fluctuation.

Keywords


Solitary Wave, K-P Equation, Reductive Perturbation Technique, Tanh-Method.