A nonlinear Zakharov-Kuznetsov equation in magnetized plasma with q-nonextensive electrons velocity distribution

2011 ◽  
Vol 18 (10) ◽  
pp. 104503 ◽  
Author(s):  
A. S. Bains ◽  
Mouloud Tribeche ◽  
N. S. Saini ◽  
T. S. Gill
Keyword(s):  
Velocity Distribution ◽  
Magnetized Plasma ◽  
Nonextensive Electrons

Electromagnetic fluctuations from energetic particles in plasmas

1988 ◽  
Vol 40 (3) ◽  
pp. 407-417 ◽  
Author(s):  
Cheng Chu ◽  
J. L. Sperling
Keyword(s):  
Distribution Function ◽  
Velocity Distribution ◽  
Charged Particles ◽  
Velocity Distribution Function ◽  
Black Body ◽  
Black Body Radiation ◽  
Specific Model ◽  
Magnetized Plasma ◽  
Plasma Power ◽  
Correlation Techniques

Electromagnetic fluctuations, induced by energetic charged particles, are calculated using correlation techniques for a uniform magnetized plasma. Power emission in the ion-cyclotron range of frequencies (ICRF) is calculated for a specific model of velocity distribution function. The emissive spectra are distinct from that of the black-body radiation and have features that are consistent with experimental observation.

scholarly journals Bayesian inference of ion velocity distribution function from laser-induced fluorescence spectra

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
S. Tokuda ◽  
Y. Kawachi ◽  
M. Sasaki ◽  
H. Arakawa ◽  
K. Yamasaki ◽  
...  
Keyword(s):  
Distribution Function ◽  
Bayesian Inference ◽  
Velocity Distribution ◽  
Velocity Distribution Function ◽  
Analytic Form ◽  
Laser Induced Fluorescence ◽  
Magnetized Plasma ◽  
Local Velocity ◽  
Ion Velocity ◽  
Ion Velocity Distribution Function

AbstractThe velocity distribution function is a statistical description that connects particle kinetics and macroscopic parameters in many-body systems. Laser-induced fluorescence (LIF) spectroscopy is utilized to measure the local velocity distribution function in spatially inhomogeneous plasmas. However, the analytic form of such a function for the system of interest is not always clear under the intricate factors in non-equilibrium states. Here, we propose a novel approach to select the valid form of the velocity distribution function based on Bayesian statistics. We formulate the Bayesian inference of ion velocity distribution function and apply it to LIF spectra locally observed at several positions in a linear magnetized plasma. We demonstrate evaluating the spatial inhomogeneity by verifying each analytic form of the local velocity distribution function. Our approach is widely applicable to experimentally establish the velocity distribution function in plasmas and fluids, including gases and liquids.

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

Open Physics ◽  
2014 ◽  
Vol 12 (11) ◽  
Author(s):  
Emad El-Shamy ◽  
Mouloud Tribeche ◽  
Wael El-Taibany
Keyword(s):  
Solitary Waves ◽  
Negative Ions ◽  
Phase Shifts ◽  
Magnetized Plasma ◽  
Nonextensive Electrons ◽  
Oblique Collision ◽  
Multicomponent Plasma ◽  
Ion Acoustic Solitary Waves ◽  
Ion Acoustic ◽  
Analytical Phase

AbstractUsing 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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