4.3 Article

Long-term evolution of electron distribution function due to nonlinear resonant interaction with whistler mode waves

期刊

JOURNAL OF PLASMA PHYSICS
卷 84, 期 2, 页码 -

出版社

CAMBRIDGE UNIV PRESS
DOI: 10.1017/S0022377818000260

关键词

wave-particle interaction

资金

  1. Russian Scientific Fund [14-12-00824]
  2. Russian Science Foundation [17-12-00084] Funding Source: Russian Science Foundation

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Accurately modelling and forecasting of the dynamics of the Earth's radiation belts with the available computer resources represents an important challenge that still requires significant advances in the theoretical plasma physics field of wave-particle resonant interaction. Energetic electron acceleration or scattering into the Earth's atmosphere are essentially controlled by their resonances with electromagnetic whistler mode waves. The quasi-linear diffusion equation describes well this resonant interaction for low intensity waves. During the last decade, however, spacecraft observations in the radiation belts have revealed a large number of whistler mode waves with sufficiently high intensity to interact with electrons in the nonlinear regime. A kinetic equation including such nonlinear wave-particle interactions and describing the long-term evolution of the electron distribution is the focus of the present paper. Using the Hamiltonian theory of resonant phenomena, we describe individual electron resonance with an intense coherent whistler mode wave. The derived characteristics of such a resonance are incorporated into a generalized kinetic equation which includes non-local transport in energy space. This transport is produced by resonant electron trapping and nonlinear acceleration. We describe the methods allowing the construction of nonlinear resonant terms in the kinetic equation and discuss possible applications of this equation.

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