Generation of proton aurora by magnetosonic waves

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Abstract

Earth's proton aurora occurs over a broad MLT region and is produced by the precipitation of low-energy (2-10â ...keV) plasmasheet protons. Proton precipitation can alter chemical compositions of the atmosphere, linking solar activity with global climate variability. Previous studies proposed that electromagnetic ion cyclotron waves can resonate with protons, producing proton scattering precipitation. A long-outstanding question still remains whether there is another mechanism responsible for the proton aurora. Here, by performing satellite data analysis and diffusion equation calculations, we show that fast magnetosonic waves can produce trapped proton scattering that yields proton aurora. This provides a new insight into the mechanism of proton aurora. Furthermore, a ray-tracing study demonstrates that magnetosonic wave propagates over a broad MLT region, consistent with the global distribution of proton aurora.

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Xiao, F., Zong, Q., Wang, Y., He, Z., Su, Z., Yang, C., & Zhou, Q. (2014). Generation of proton aurora by magnetosonic waves. Scientific Reports, 4. https://doi.org/10.1038/srep05190

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