http://arxiv.org/abs/2105.02265
The role of large amplitude whistler waves in the energization and scattering of solar wind electrons has long been an interesting problem in Space Physics. To study this wave-particle interaction, we developed a vectorized test particle simulation with a variational calculation of the Lyapunov exponents. From using secular perturbation theory on this Hamiltonian system of wave and particle, we confirmed that the pitch angle diffusion of the particle was along the constant Hamiltonian surface and that it was driven by the interaction with the resonance surfaces. We also showed that oblique whistlers could efficiently scatter field-aligned strahl electrons into the halo population in the solar wind. We demonstrated through simulation that these waves were capable of generating horn-like features in the velocity distribution function, similar to recent PIC simulation results in the literature.
T. Vo
Fri, 7 May 21
40/61
Comments: 46 pages, 18 figures
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