Effect of Polarization Force on Dust-Acoustic Solitary and Rogue Waves in (r, q) Distributed Plasma

Manveet Kaur, Sunidhi Singla, Nareshpal Singh Saini

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

2 Scopus citations

Abstract

In this investigation, dust-acoustic solitary and rogue waves are analysed by including the role of polarization force in a dusty plasma in the presence of ions obeying (r, q) distribution velocity. The (r, q) distributed ions lead to change in the expression of polarization force which subsequently modifies the nonlinear structures. Using reductive perturbation technique, the Kadomstev–Petviashvili equation and nonlinear Schrödinger equation (NLSE) are formulated. From the solution of KP equation, we have studied the characteristics of small amplitude dust-acoustic structures under transverse perturbations. We have also presented the stability of the solitary wave solutions of KP equation. Further, from the rational solutions of NLSE, we have analysed the characteristics of dust-acoustic rogue waves by varying different plasma parameters. It is emphasized that all different physical parameters have great influence on the characteristics of dust-acoustic solitary waves and different order rogue waves.

Original languageEnglish
Title of host publicationNonlinear Dynamics and Applications - Proceedings of the ICNDA 2022
EditorsSanto Banerjee, Asit Saha
PublisherSpringer Science and Business Media B.V.
Pages275-287
Number of pages13
ISBN (Print)9783030997915
DOIs
StatePublished - 2022
Externally publishedYes
EventInternational Conference on Nonlinear Dynamics and Applications, ICNDA 2022 - Virtual, Online
Duration: Mar 9 2022Mar 11 2022

Publication series

NameSpringer Proceedings in Complexity
ISSN (Print)2213-8684
ISSN (Electronic)2213-8692

Conference

ConferenceInternational Conference on Nonlinear Dynamics and Applications, ICNDA 2022
CityVirtual, Online
Period03/9/2203/11/22

Keywords

  • (r
  • KP equation
  • NLSE
  • Polarization force
  • q) distribution

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