摘要
With one-dimensional (l-D) hybrid simulations we investigate the nonlinear evolu- tion of the ion cyclotron waves excited by the H+ and He2+ temperature anisotropies, and analyze the evolution by using the wavelet analysis method. The results show that the proton cyclotron waves with the dominant frequency higher than the helium gyro-frequency (ΩHe = 0.5Ωp, with Ωp and ΩHe the proton and helium gyro-frequencies respectively ) are firstly excited, and then the helium cyclotron waves with the dominant frequency lower than the helium gyro-frequency are excited. The relation of our simulation results to the BIF(bifurcated) (there are two peaks in the wave spectrum: one above and one below ΩHe) and CON(continuous) (continuous spectrum from 0.1 Ωp to 1.0 Ωp) wave spectra observed in the magnetosheath are discussed.
With one-dimensional (l-D) hybrid simulations we investigate the nonlinear evolu- tion of the ion cyclotron waves excited by the H+ and He2+ temperature anisotropies, and analyze the evolution by using the wavelet analysis method. The results show that the proton cyclotron waves with the dominant frequency higher than the helium gyro-frequency (ΩHe = 0.5Ωp, with Ωp and ΩHe the proton and helium gyro-frequencies respectively ) are firstly excited, and then the helium cyclotron waves with the dominant frequency lower than the helium gyro-frequency are excited. The relation of our simulation results to the BIF(bifurcated) (there are two peaks in the wave spectrum: one above and one below ΩHe) and CON(continuous) (continuous spectrum from 0.1 Ωp to 1.0 Ωp) wave spectra observed in the magnetosheath are discussed.
基金
supported by National Natural Science Foundation of China (Nos.40725013,40674093)
the Open Research Program Foundation of State Key Laboratory for Space Weather,Chinese Academy Sciences
