LAUSR

Dispersion and damping of kinetic Alfven waves (KAWs) and inertial Alfven waves (IAWs) are studied for the electron-ion Cairns distributed plasmas in the framework of kinetic theory. The phase velocities and damping rates of KAWs and IAWs are evaluated for different values of nonthermal parameter Λ. It is shown that the phase velocities of both the waves are enhanced as Λ increases. In the case of damping, it is found that the damping of KAWs becomes smaller for larger values of Λ, whereas for IAWs, the magnitude of damping first increases and then decreases as perpendicular wavelength increases. These shifts in damping may find fruitful applications in the heating processes in space plasmas.Dispersion and damping of kinetic Alfven waves (KAWs) and inertial Alfven waves (IAWs) are studied for the electron-ion Cairns distributed plasmas in the framework of kinetic theory. The phase velocities and damping rates of KAWs and IAWs are evaluated for different values of nonthermal parameter Λ. It is shown that the phase velocities of both the waves are enhanced as Λ increases. In the case of damping, it is found that the damping of KAWs becomes smaller for larger values of Λ, whereas for IAWs, the magnitude of damping first increases and then decreases as perpendicular wavelength increases. These shifts in damping may find fruitful applications in the heating processes in space plasmas.