The Excitation of Eastward Second Harmonic Poloidal Waves Through Drift-Bounce Resonance with Protons in the Magnetic Dip
- 1Institute of Space Physics and Applied Technology, Peking University, Beijing, China
- 2IRAP, CNES-CNRS-Universite Toulouse III Paul Sabatier, Toulouse, France
The drift-bounce resonance between ultralow-frequency (ULF) wave and charged particles is an efficient way to transfer energy. In this study, we report the excitation of ULF waves through drift-bounce resonance with protons in the magnetic dip for the first time. On 4 September 2015, Van Allen probe B observed ULF signals with a frequency of ~10 mHz inside the magnetic dip during substorms at the dusk side. The ULF waves are further diagnosed as second harmonic poloidal waves. The 54-67 keV protons in the magnetic dip exhibit oscillations with the same period as ULF waves, providing evidence for drift-bounce resonance. Through finite Larmor radius effects combined with simulations, we determined the ULF waves propagate eastward with an azimuthal wave number of ∼240. The sign of df/dW reveals that the ULF waves are excited and related to the outward radial gradient of proton phase space density.
How to cite: Zhuang, Y., Yue, C., Li, L., Zhou, X.-Z., Zong, Q.-G., Li, X.-Y., Yin, Z.-F., Liu, Y., Fu, H., Liu, Z.-Y., and Wang, Y.-F.: The Excitation of Eastward Second Harmonic Poloidal Waves Through Drift-Bounce Resonance with Protons in the Magnetic Dip, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-9438, https://doi.org/10.5194/egusphere-egu24-9438, 2024.
Corresponding supplementary materials formerly uploaded have been withdrawn.