Simulation of Chorus Wave Excitation in the Compressed/Stretched Dipole Magnetic Field

Kong, Zhenyu; Gao, Xinliang; Ke, Yangguang; Lu, Quanming; Wang, Xueyi

doi:10.1029/2022ja030779

Cited by 2 publications

(1 citation statement)

References 37 publications

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“…In addition, the compressional ULF waves can also modulate chorus waves by changing magnetic field gradient (Li et al., 2022). Simulation results have clearly shown that the change of the inhomogeneity or curvature of background magnetic field can affect the fine structure of chorus waves (Katoh & Omura, 2013; Kong et al., 2023). Although several studies have reported the appearance and quench of chorus waves caused by the solar wind dynamic pressure (Fu et al., 2012; Liu et al., 2017; Yue et al., 2017; Zhou et al., 2015), there is still no direct observation on the modulation of fine structures of chorus waves by solar wind dynamic pressure.…”

Section: Introductionmentioning

confidence: 99%

Direct Observation of Rising‐Tone Chorus Triggered by Enhanced Solar Wind Pressure

Zhou,

Gao,

Chen

et al. 2023

JGR Space Physics

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Chorus waves play a significant role in both electron precipitation and acceleration in Earth's radiation belts. Their generation includes the initial linear process and subsequent nonlinear process. After the amplitude of whistler‐mode waves reaches a sufficient value in the linear phase, the nonlinear process takes effect and results in the frequency chirping of chorus waves. Here we present the first report on the generation and intensification of rising‐tone chorus driven by two sudden increases of solar wind dynamic pressure observed by Van Allen Probes on 20 December 2015. First, whistler‐mode waves are excited by the anisotropic thermal electrons (∼10s keV), which is quite consistent with the linear theoretical expectation. Then, rising‐tone chorus waves are nonlinearly generated from the existing whistler‐mode waves, triggered by the first increase of solar wind dynamic pressure. Subsequently, the second increase of solar wind pressure further intensifies the rising‐tone chorus. Based on the nonlinear theoretical model and Ts04 magnetic field model, we demonstrate that the decreasing inhomogeneity of the background magnetic field due to the increasing solar wind dynamic pressure is the major cause to trigger rising tones, which essentially reduces the wave amplitude threshold of the nonlinear process. Our study emphasizes the significance of solar wind dynamic pressure in the Earth's radiation belts from a micro perspective.

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Section: Introductionmentioning

confidence: 99%

Direct Observation of Rising‐Tone Chorus Triggered by Enhanced Solar Wind Pressure

Zhou,

Gao,

Chen

et al. 2023

JGR Space Physics

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The Principal Role of Chorus Ducting for Night‐Side Relativistic Electron Precipitation

Kang,

Artemyev,

Bortnik

et al. 2024

Geophysical Research Letters

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Night‐side chorus waves are often observed during plasma sheet injections, typically confined around the equator and thus potentially responsible for precipitation of ≲100 keV electrons. However, recent low‐altitude observations have revealed the critical role of chorus waves in scattering relativistic electrons on the night‐side. This study presents a night‐side relativistic electron precipitation event induced by chorus waves at the strong diffusion regime, as observed by the ELFIN CubeSats. Through event‐based modeling of wave propagation under ducted or unducted regimes, we show that a density duct is essential for guiding chorus waves to high latitudes with minimal damping, thus enabling the strong night‐side relativistic electron precipitation. These findings underline both the existence and the important role of density ducts in facilitating night‐side relativistic electron precipitation.

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Simulation of Chorus Wave Excitation in the Compressed/Stretched Dipole Magnetic Field

Cited by 2 publications

References 37 publications

Direct Observation of Rising‐Tone Chorus Triggered by Enhanced Solar Wind Pressure

Direct Observation of Rising‐Tone Chorus Triggered by Enhanced Solar Wind Pressure

The Principal Role of Chorus Ducting for Night‐Side Relativistic Electron Precipitation

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