The dynamics of electrons in a magnetically confined plasma under the action of an intense monochromatic wave is analyzed by means of a relativistic Hamiltonian treatment. Oblique wave propagation with respect to the magnetic field is considered. It is found that in the case of global stochasticity the particle acceleration has a diffusive nature. It is shown that in a proper space the energy diffusion equation is one dimensional. The relevant diffusion coefficient is given by a well defined local quasilinear expression. The theoretical model is validated up to high values of the perturbation parameter by comparison with long time numerical simulations of the electron motion.
Quasilinear stochastic electron energy diffusion driven by an intense cyclotron wave in oblique propagation
Daniela Farina;
1994
Abstract
The dynamics of electrons in a magnetically confined plasma under the action of an intense monochromatic wave is analyzed by means of a relativistic Hamiltonian treatment. Oblique wave propagation with respect to the magnetic field is considered. It is found that in the case of global stochasticity the particle acceleration has a diffusive nature. It is shown that in a proper space the energy diffusion equation is one dimensional. The relevant diffusion coefficient is given by a well defined local quasilinear expression. The theoretical model is validated up to high values of the perturbation parameter by comparison with long time numerical simulations of the electron motion.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
