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>Excitation of Internally Driven ULF Waves by the Drift-Bounce Resonance With Ring Current Ions Based on the Drift-Kinetic Simulation
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Excitation of Internally Driven ULF Waves by the Drift-Bounce Resonance With Ring Current Ions Based on the Drift-Kinetic Simulation
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机译:Excitation of Internally Driven ULF Waves by the Drift-Bounce Resonance With Ring Current Ions Based on the Drift-Kinetic Simulation
We investigated the excitation mechanism and global distribution of internally driven Pc3-Pc5 ultralow-frequency waves in the inner magnetosphere using a kinetic and self-consistent simulation (Geospace Environment Modeling System for Integrated Studies-Ring Current model). These waves can be excited through the drift-bounce resonance with ring current ions injected into the inner magnetosphere during substorms. Initial phase space density of ring current ions is the butterfly-like distribution with the asymmetry in pitch angle direction. We find two kinds of internally driven ultralow-frequency waves. First, the dynamic power spectra of the field fluctuations show the excitation of poloidal, toroidal, and compressional Pc5 waves. We find that the excited waves are fundamental modes propagating westward with the azimuthal wave number of m similar to - 50. These waves are excited by the drift resonance with ions having the energy of 50-150 keV. Second, we can reproduce the excitation of poloidal Pc3 waves in the dusk region with m similar to - 30, which are driven by the bounce resonance with ions having energies of 20-50 keV for the first time. We investigate the energy transfer between ions and waves and find that poloidal Pc5 and Pc3 waves are excited mainly by positive energy gradient of the phase space density, while we find the inward gradient of the phase space density at L > 6. The velocity distribution of the growth rate suggests that Pc5 waves are driven by ions with pitch angle of around 90 degrees, while Pc3 waves are excited by ions at oblique pitch angle.
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