[HTML][HTML] On the shock wave structures in anisotropy magnetoplasmas
In this work, the propagation of nonlinear electrostatic shock wave structures in an
anisotropy pressure magnetoplasma composed of warm inertial ions and inertia-less …
anisotropy pressure magnetoplasma composed of warm inertial ions and inertia-less …
[HTML][HTML] Ion-acoustic cnoidal waves in a non-Maxwellian plasma with regularized κ-distributed electrons
MA Hammad, M Khalid, AW Alrowaily, CGL Tiofack… - AIP Advances, 2023 - pubs.aip.org
This study examines how regularized kappa distributed (RKD) electrons affect the
characteristics of the ion-acoustic cnoidal waves (IACWs) in normal plasma. The RKD is a …
characteristics of the ion-acoustic cnoidal waves (IACWs) in normal plasma. The RKD is a …
Periodic waves in unmagnetized nonthermal dusty plasma with cairns distribution
M Khalid, EA Elghmaz, L Shamshad - Brazilian Journal of Physics, 2023 - Springer
In this paper, we report the characteristics of dust acoustic cnoidal waves (DACWs) due to
the presence of polarization force (PF) interaction acting on dust particles in unmagnetized …
the presence of polarization force (PF) interaction acting on dust particles in unmagnetized …
Nonlinear periodic structures in fully relativistic degenerate plasma
In this paper, a very first use of the self-consistent two-fluid model is made in the context of
ion-scale cnoidal waves (CWs) in a 1D electron ion plasma. Electrons are taken as …
ion-scale cnoidal waves (CWs) in a 1D electron ion plasma. Electrons are taken as …
High-frequency electrostatic cnoidal waves in unmagnetized plasma
M Khalid, R Minhas, BM Alotaibi… - Brazilian Journal of …, 2024 - Springer
In this paper, the propagation of high frequency electrostatic electron-acoustic cnoidal
waves (EACWs) is investigated in an unmagnetized homogenous plasma consisting of …
waves (EACWs) is investigated in an unmagnetized homogenous plasma consisting of …
Large amplitude electrostatic (Un) modulated excitations in anisotropic magnetoplasmas: Solitons and Freak waves
HA Alyousef, M Khalid, SA El-Tantawy - Brazilian Journal of Physics, 2022 - Springer
The arbitrary amplitude ion-acoustic (IA)(un) modulated electrostatic structures including
unmodulated solitary waves (SWs) and freak waves (FWs) in a magnetized and collisionless …
unmodulated solitary waves (SWs) and freak waves (FWs) in a magnetized and collisionless …
Dissipative solitons in magnetized anisotropic plasma
M Khalid, H Khan - Europhysics Letters, 2022 - iopscience.iop.org
The propagation of ion-acoustic (IA) dissipative solitons (DSs) is investigated in magnetized
plasma with the presence of pressure anisotropy and Maxwellian distributed electrons. A …
plasma with the presence of pressure anisotropy and Maxwellian distributed electrons. A …
Large amplitude electrostatic solitary waves in anisotropic plasma
M Khalid - Waves in Random and Complex Media, 2023 - Taylor & Francis
The propagation of nonlinear ion-acoustic solitary waves (IASWs) is investigated in a
magnetized anisotropic electron ion plasma with Cairns distributed electrons. The ions are …
magnetized anisotropic electron ion plasma with Cairns distributed electrons. The ions are …
Evolution of ion-acoustic shock waves in magnetized plasma with hybrid Cairns–Tsallis distributed electrons
B Sahu, R Maity - Zeitschrift für Naturforschung A, 2022 - degruyter.com
The propagation of nonlinear electrostatic ion-acoustic (IA) shock waves in presence of
external magnetic field having Cairns–Tsallis distributed electrons and ion kinematic …
external magnetic field having Cairns–Tsallis distributed electrons and ion kinematic …
Dissipative solitons in a superthermal anisotropy plasma
M Khalid, H Khan, LS Jan, BM Alotaibi - The European Physical Journal …, 2023 - Springer
Dissipative solitons, self-sustained localized structures that emerge in nonlinear systems,
have attracted significant attention in various fields of physics of fluids. In this paper, we …
have attracted significant attention in various fields of physics of fluids. In this paper, we …