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Study of VLF wave with relativistic effect in Saturn magnetosphere in the presence of parallel A.C. electric field
Authors:Jyoti Kumari  R.S. Pandey
Affiliation:Department of Physics, Amity Institute of Applied Sciences, Amity University, Sector – 125, Noida, Uttar Pradesh, India
Abstract:
Cassini radio and plasma wave surveys aim to study radio emissions, plasma waves, thermal plasma and dust near Saturn. Using the characteristic solution and dynamics method, the influence of electron beam on the loss cone and bi-Maxwellian distribution of whistler mode waves in the parallel alternating electric field and magnetic field is studied. The dispersion relation and the growth rate of Saturn's magnetic layer were deduced and calculated in detail. Parameter analysis is performed by changing the parameters of the plasma like number density, AC frequency, temperature anisotropy, etc. The influence of AC frequency on Doppler shift and the comparative study of growth rate of oblique and parallel propagating waves are analyzed using generalized distribution function. We found temperature anisotropy AT=1.25 can explain the linear spatiotemporal growth rate of whistler mode waves. It provides the majority of the observed frequency integral power. It can be seen that the effective parameters for the generation of Whistler mode waves are not only temperature anisotropy, but also the relativistic factors discussed in the results and discussion section, and the AC field frequency and width of the loss cone distribution function.
Keywords:Whistler mode waves  Loss cone distribution  Generalized distribution  Relativistic growth rate
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