Linear and Nonlinear Electrostatic Excitations and Their Stability in a Nonextensive Anisotropic Magnetoplasma

In the present work, the propagation of (non)linear electrostatic waves is reported in a normal (electron–ion) magnetoplasma. The inertialess electrons follow a non-extensive q-distribution, while the positive inertial ions are assumed to be warm mobile. In the linear regime, the dispersion relation for both the fast and slow modes is derived, whose properties are analyzed parametrically, focusing on the effect of nonextensive parameter, component of parallel anisotropic ion pressure, component of perpendicular anisotropic ion pressure, and magnetic field strength. The reductive perturbation technique is employed for reducing the fluid equation of the present plasma model to a Zakharov–Kuznetsov (ZK) equation. The parametric role of physical parameters on the characteristics of the symmetry planar structures such solitary waves is investigated. Furthermore, the stability of the pulse soliton solution of the ZK equation against the oblique perturbations is investigated. Furthermore, the dependence of the instability growth rate on the related physical parameters is examined. The present investigation could be useful in space and astrophysical plasma systems.

[1]  M. Khalid,et al.  Ion acoustic cnoidal waves in a magnetized plasma in the presence of ion pressure anisotropy , 2019, Astrophysics and Space Science.

[2]  R. Merlino,et al.  Experiments on ion-acoustic waves in dusty plasmas , 1996 .

[3]  S. El-Tantawy,et al.  Simulation study on nonlinear structures in nonlinear dispersive media. , 2020, Chaos.

[4]  U. N. Ghosh,et al.  The effect of q-distributed ions during the head-on collision of dust acoustic solitary waves , 2012 .

[5]  W. Layton,et al.  Ion acoustic wave experiments in a high school plasma physics laboratory , 2007 .

[6]  S. El-Tantawy,et al.  On the rogue wave solution in the framework of a Korteweg–de Vries equation , 2021, Results in Physics.

[7]  S. El-Tantawy,et al.  Oblique ion acoustic excitations in a magnetoplasma having $\kappa $-deformed Kaniadakis distributed electrons , 2020, Astrophysics and Space Science.

[8]  N. A. El-Bedwehy,et al.  Three-dimensional stability of dust-ion acoustic solitary waves in a magnetized multicomponent dusty plasma with negative ions , 2011 .

[9]  H. Pakzad Effect of q-nonextensive electrons on electron acoustic solitons , 2011 .

[10]  Nonextensivity in nonequilibrium plasma systems with Coulombian long-range interactions , 2004, cond-mat/0404602.

[11]  B. S. Kashkari,et al.  Homotopy perturbation method for studying dissipative nonplanar solitons in an electronegative complex plasma , 2020 .

[12]  S. El-Tantawy Effect of ion viscosity on dust ion-acoustic shock waves in a nonextensive magnetoplasma , 2016 .

[13]  R. Z. Sagdeev,et al.  Cooperative Phenomena and Shock Waves in Collisionless Plasmas , 1966 .

[14]  F. Low,et al.  The Boltzmann equation an d the one-fluid hydromagnetic equations in the absence of particle collisions , 1956, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[15]  A. Wazwaz,et al.  Solitons collision and freak waves in a plasma with Cairns-Tsallis particle distributions , 2015 .

[16]  M. Tribeche,et al.  Variable charge dust acoustic solitary waves in a dusty plasma with a q-nonextensive electron velocity distribution , 2010 .

[17]  G. Livadiotis Approach on Tsallis statistical interpretation of hydrogen-atom by adopting the generalized radial distribution function , 2009 .

[18]  S. El-Tantawy,et al.  The phase shift analysis of the colliding dissipative KdV solitons , 2021, Journal of Ocean Engineering and Science.

[19]  J. Lima,et al.  Plasma oscillations and nonextensive statistics , 2000 .

[20]  Liu Liyan,et al.  Ion acoustic waves in the plasma with the power-law q-distribution in nonextensive statistics , 2008 .

[21]  Vladimir E. Zakharov,et al.  Three-dimensional solitons , 1974 .

[22]  S. Mahmood,et al.  Pressure anisotropy effects on nonlinear electrostatic excitations in magnetized electron-positron-ion plasmas , 2014 .

[23]  M. Tribeche,et al.  Nonextensive dust-acoustic solitary waves , 2011 .

[24]  A. Mushtaq,et al.  Ion acoustic waves in pair-ion plasma: Linear and nonlinear analyses , 2009 .

[25]  S. El-Tantawy,et al.  On the dissipative extended Kawahara solitons and cnoidal waves in a collisional plasma: Novel analytical and numerical solutions , 2021, Physics of Fluids.

[26]  Shalini,et al.  Ion acoustic solitons in a nonextensive plasma with multi-temperature electrons , 2013 .

[27]  R. Hanel,et al.  Stability criteria for q-expectation values , 2008, 0808.4158.

[28]  Y. Nakamura,et al.  Observation of ion-acoustic solitary waves in a dusty plasma , 2001 .