Evolution of Chorus Subpackets in the Earth's Magnetosphere

Chorus subpackets/subelements are the wave packets occurring at intervals of similar to 10-100 msec and are suggested to play a crucial role in the formation of substructures within pulsating aurora. In this study, we investigate the evolution of subpackets from the upstream to downstream regions. Using Van Allen Probe A measurements, we have found that the frequency of the upstream subpackets increases smoothly, but that of the downstream subpackets remains almost unchanged. Through a simulation in the real-size magnetosphere, we have reproduced the subpackets with characteristics similar to those in observations, and revealed that the frequency chirping is influenced by both resonant current of electrons and wave amplitude due to nonlinear physics. Although the resonant currents in the upstream and downstream regions are comparable, the wave amplitude increases significantly during evolution, resulting in lower sweep rate in the downstream region. Our findings provide a fresh insight into the evolution of chorus subpackets. Subpackets within chorus waves are suggested to play a significant role in producing the substructures within pulsating aurora. How does the frequency change inside subpackets is still an open question. In this study, the subpackets are found with Van Allen Probe A observation to be excited upstream of the magnetic equator, and propagate toward downstream. The frequency of subpackets increases with time in the upstream region, while it keeps almost unchanged in the downstream region. Meanwhile, a particle-in-cell simulation has been performed to study the characteristics of subpackets, and the simulation results agree well with those in observations. The frequency variation of subpackets is influenced by both resonant electrons and wave amplitude. Our study provides a clue for better understanding the nonlinear wave-particle interactions in the evolution of chorus subpackets. The source region of chorus subpackets has been observed by Van Allen Probe AThe chorus subpackets have been investigated via the general curvilinear particle-in-cell simulation in the real-size magnetosphereNonlinear physics is a dominant process in the evolution of chorus subpackets

Automated summary

Chorus subpackets are wave packets that play a crucial role in the formation of substructures within pulsating aurora. The frequency of these subpackets increases in the upstream region but remains unchanged in the downstream region. Simulation results indicate that both resonant electrons and wave amplitude influence the frequency chirping. This study provides insight into the nonlinear wave-particle interactions involved in the evolution of chorus subpackets.