Litcius/Paper detail

Adomian decomposition method for modelling the dissipative higher-order rogue waves in a superthermal collisional plasma

Noufe H. Aljahdaly, S. A. El-Tantawy, Abdul‐Majid Wazwaz, H. A. Ashi

2021Journal of Taibah University for Science37 citationsDOIOpen Access PDF

Abstract

A reductive perturbation technique (the derivative expansion technique (DET)) is employed to derive a linear damped nonlinear Schrödinger equation (LDNLSE) for investigating the feature properties of the dissipative modulated nonlinear dust-acoustic wavepacket including rogue waves (RWs) in an electron-ion dusty plasma having superthermal electrons and ions. The modulational instability (MI) of the dissipative envelope structures is investigated and the (un)stable domain of the modulated structures is mapped precisely. The LDNLSE is solved numerically using Adomian decomposition method (ADM) in order to study the impact of the related plasma parameters on the features of the dissipative RWs. The influence of superthermal parameters and the dust-neutral collisional frequency on the profile of the dissipative dust-acoustic RWs is numerically investigated. Moreover, the accuracy of the numerical solutions is examined by estimating the global residual error in the whole space-time domain.

Topics & Concepts

Dissipative systemPhysicsRogue waveModulational instabilityNonlinear systemDusty plasmaInstabilityPlasmaNonlinear Schrödinger equationClassical mechanicsMechanicsQuantum mechanicsDust and Plasma Wave PhenomenaNonlinear Waves and SolitonsNonlinear Photonic Systems
Adomian decomposition method for modelling the dissipative higher-order rogue waves in a superthermal collisional plasma | Litcius