A New Analysis for Fractional Model of Regularized Long-Wave Equation Arising in Ion Acoustic Plasma Waves
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Date
2017
Journal Title
Journal ISSN
Volume Title
Publisher
Wiley
Open Access Color
Green Open Access
No
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No
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Impulse
Top 1%
Influence
Top 10%
Popularity
Top 1%
Abstract
The key purpose of the present work is to constitute a numerical scheme based on q-homotopy analysis transform method to examine the fractional model of regularized long-wave equation. The regularized long-wave equation explains the shallow water waves and ion acoustic waves in plasma. The proposed technique is a mixture of q-homotopy analysis method, Laplace transform, and homotopy polynomials. The convergence analysis of the suggested scheme is verified. The scheme provides and n-curves, which show that the range convergence of series solution is not a local point effects and elucidate that it is superior to homotopy analysis method and other analytical approaches. Copyright (c) 2017 John Wiley & Sons, Ltd.
Description
Kumar, Devendra/0000-0003-4249-6326
ORCID
Keywords
Fractional Regularized Long-Wave Equation, Nonlinear Dispersive Waves, Shallow Water Waves, Ion Acoustic Plasma Waves, Q-Homotopy Analysis Transform Method, Transform methods (e.g., integral transforms) applied to PDEs, fractional regularized long-wave equation, nonlinear dispersive waves, shallow water waves, Analyticity in context of PDEs, ion acoustic plasma waves, Fractional partial differential equations, \(q\)-homotopy analysis transform method
Fields of Science
0103 physical sciences, 01 natural sciences
Citation
Kumar, Devendra; Singh, Jagdev; Baleanu, Dumitru, "A new analysis for fractional model of regularized long-wave equation arising in ion acoustic plasma waves", Mathematical Methods In The Applied Sciences, Vol.40, No.15, pp.5642-5653, (2017).
WoS Q
Q1
Scopus Q
Q1
OpenCitations Citation Count
106
Source
Mathematical Methods in the Applied Sciences
Volume
40
Issue
15
Start Page
5642
End Page
5653
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