The role of κ‐deformed Kaniadakis distributed electrons on the dust ion‐acoustic waves in charge‐varying dusty plasma

The one‐dimensional dynamics of nonlinear electrostatic dust‐ion acoustic waves (DIAWs), in a plasma containing Kaniadakis‐distributed electrons, fluid ions, and variable‐charge dust grains has been investigated. The κ−generalized electron charging current is derived based on the orbit‐motion limite...

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Bibliographic Details
Published in:Contributions to plasma physics (1988) 2024-03, Vol.64 (3), p.n/a
Main Authors: Bellahsene, Zakaria, Bacha, Mustapha, Zerguini, Taha Houssine
Format: Article
Language:English
Subjects:
Burgers equation
charge varying dusty plasma
Coexistence
Dust
dust ion acoustic shock wave
Dusty plasmas
Electrons
Ion acoustic waves
Kaniadakis distributed electrons
Nonlinear dynamics
Perturbation methods
Phase velocity
Shock waves
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Summary:The one‐dimensional dynamics of nonlinear electrostatic dust‐ion acoustic waves (DIAWs), in a plasma containing Kaniadakis‐distributed electrons, fluid ions, and variable‐charge dust grains has been investigated. The κ−generalized electron charging current is derived based on the orbit‐motion limited approach. The reductive perturbation technique has been used to derive a KdV Burger equation of propagation. We have highlighted the dependence between the values of the dust particles charge Qd0 and the validity domain of the Kaniadakis parameter κ, where the Burger term C has positive. By integrating the KdV Burger equation numerically and assuming a laboratory dusty plasma, a transition from oscillatory to monotonic shock waves is observed with increasing values of κ. We have also found that the phase velocity of DIA shock waves decreases, and the dissipation can prevail over that of dispersion as the electrons move further away from thermal equilibrium (κ is increased). The coexistence of compressive and rarefactive of monotonic shock profile is observed. It is found that an increase in κ leads to an increase of the compressive monotonic shock wave and decrease the rarefactive monotonic shock wave.
ISSN:0863-1042
1521-3986
DOI:10.1002/ctpp.202300155