Three-dimensional stability of dust-ion acoustic solitary waves in a magnetized multicomponent dusty plasma with negative ions

Abstract:Using the extended Poincaré-Lighthill-Kuo (EPLK) method, the interaction between two ion acoustic solitary waves (IASWs) in a multicomponent magnetized plasma (including Tsallis nonextensive electrons) has been theoretically investigated. The analytical phase shifts of the two solitary waves after interaction are estimated. The proposed model leads to rarefactive solitons only. The effects of colliding angle, ratio of number densities of (positive/negative) ions species to the density of nonextensive electrons, ion-to-electron temperature ratio, mass ratio of the negative-to-positive ions and the electron nonextensive parameter on the phase shifts are investigated numerically. The present results show that these parameters have strong effects on the phase shifts and trajectories of the two IASWs after collision. Evidently, this model is helpful for interpreting the propagation and the oblique collision of IASWs in magnetized multicomponent plasma experiments and space observations.

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“…The dynamics of nonlinear IASWs in this proposed plasma system is governed by the following normalized equations [11,12,48],…”

Section: Governing Equations and Oblique Collision Of Two Iaswsmentioning

confidence: 99%

The collisions of two ion acoustic solitary waves in a magnetized nonextensive plasma

El-Shamy¹,

Tribeche

El-Taibany³

2014

Open Physics

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“…For more than four decades, negative ion plasmas attracted attention due to their importance both in laboratory experiments and in space plasma observations (Massey 1976;Jacquinot et al 1977;Bacal and Hamilton 1979;Gottscho and Gaebe 1986;Swider 1988;Portnyagin et al 1991;Chaizy et al 1991;Shibayama et al 1996;Nakamura et al 2001;Ichiki et al 2002;Coates et al 2007;El-Labany et al 2010;El-Taibany et al 2011;Sahu 2011). Negative ion plasma is a plasma that contains both negative and positive ion species as well as electrons.…”

Section: Introductionmentioning

confidence: 98%

Ion-acoustic double layers in magnetized positive-negative ion plasmas with nonthermal electrons

El‐Labany

Sabry

El-Taibany

et al. 2012

Astrophys Space Sci

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“…Because of the presence of different types of dust charged grains in a plasma, many types of different wave modes are introduced, such as dust acoustic mode [8], dust ion acoustic mode [9], dust lattice mode [10], shukla-varma mode [11], dust Bernstein-Greene-Kruskal mode [12], and dust drift mode [13]. Recently, the theoretical and experimental investigations on the dust ion acoustic solitary waves (DIASWs) have been made by a large numbers of researchers [16][17][18][19][20]. Ghosh et al [21] studied the head-on collision of dust acoustic solitary waves in a dusty plasma consisting of dust particles and q-nonextensive electrons.…”

Section: Introductionmentioning

confidence: 99%

Solitonic, Periodic and Quasiperiodic Behaviors of Dust Ion Acoustic Waves in Superthermal Plasmas

Saha

Chatterjee

2015

Braz J Phys

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The solitonic, periodic, and quasiperiodic behaviors of dust ion acoustic waves in superthermal plasmas with q-nonextensive electrons are studied using the bifurcation theory of planar dynamical systems through direct approach. Using a Galilean transformation, model equations are transformed to a Hamiltonian system involving electrostatic potential. The existence of solitary and periodic waves is shown for the unperturbed Hamiltonian system. Analytical forms of these waves are presented depending on physical parameters q and μ. The effects of q and μ are studied on characteristics of nonlinear dust ion acoustic solitary and periodic waves. It is observed that parameters q and μ significantly influence the characteristics of nonlinear dust ion acoustic solitary and periodic structures. Considering an external periodic perturbation, the quasiperiodic behavior of the perturbed Hamiltonian system for dust ion acoustic waves is studied. It is seen that the unperturbed Hamiltonian system has the solitary and periodic wave solutions whereas the perturbed Hamiltonian system has quasiperiodic motion for same values of parameters q, μ and v.

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Three-dimensional stability of dust-ion acoustic solitary waves in a magnetized multicomponent dusty plasma with negative ions

Cited by 61 publications

References 29 publications

The collisions of two ion acoustic solitary waves in a magnetized nonextensive plasma

The collisions of two ion acoustic solitary waves in a magnetized nonextensive plasma

Ion-acoustic double layers in magnetized positive-negative ion plasmas with nonthermal electrons

Solitonic, Periodic and Quasiperiodic Behaviors of Dust Ion Acoustic Waves in Superthermal Plasmas

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