2018
DOI: 10.1016/j.heliyon.2018.e01096
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Resistive drift instabilities for thermal and non-thermal electron distributions in electron-ion plasma

Abstract: Local dispersion relations for resistive drift mode in a nonuniform magnetize plasma are derived for thermal and non-thermal distribution of electrons. The coupled mode equations are obtained by using Braginskii's transport equations for ions and electrons with thermal as well as non-thermal (Cairns and kappa) distribution for electrons. The dispersion relations are then analyzed both analytically as well as numerically for all distributions. It is found that growth rate is highest for Maxwellian, Intermediate… Show more

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Cited by 3 publications
(1 citation statement)
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“…Wu et al [24] have recently investigated the spectral modification of the lower hybrid wave caused by low frequency drift-wave-type density fluctuations in the framework of the wave scattering model via a Monte Carlo method. The resistive drift wave instabilities in a non-uniform magnetized plasma have been explored by Rehman [25] along with the considerations of both thermal and non-thermal electron distributions. The electromagnetic resistive drift wave instabilities have been analysed in the framework of a two fluid model by Rehman [26] in fusion plasmas by taking the effects of the ion viscosity into account.…”
Section: Introductionmentioning
confidence: 99%
“…Wu et al [24] have recently investigated the spectral modification of the lower hybrid wave caused by low frequency drift-wave-type density fluctuations in the framework of the wave scattering model via a Monte Carlo method. The resistive drift wave instabilities in a non-uniform magnetized plasma have been explored by Rehman [25] along with the considerations of both thermal and non-thermal electron distributions. The electromagnetic resistive drift wave instabilities have been analysed in the framework of a two fluid model by Rehman [26] in fusion plasmas by taking the effects of the ion viscosity into account.…”
Section: Introductionmentioning
confidence: 99%