与BARREL降水相关的等离子体羽流中的快速非平衡俯仰角扩散

2022 3rd URSI Atlantic and Asia Pacific Radio Science Meeting (AT-AP-RASC) Pub Date : 2022-05-29 DOI:10.23919/AT-AP-RASC54737.2022.9814421

R. Millan, J. Ripoll

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摘要

本文综述了羽流嘶嘶波对辐射带电子俯仰角散射的研究进展。我们进一步分析了在[1]中首次报道的BARREL观测到的电子沉淀事件。我们发现用BARREL观测到的轫致辐射x射线能谱与指数沉淀电子能谱不一致，并且比用范艾伦探针测量到的捕获电子能谱更硬。我们扩展了拟线性扩散模型，以考虑更真实的初始电子能谱。电子相空间密度向更硬能谱的演变在质量上与BARREL观测结果一致，并归因于低能粒子在与羽流嘶嘶波非平衡相互作用的早期迅速损失。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fast Non-Equilibrium Pitch Angle Diffusion in a Plasmaspheric Plume Associated with BARREL Precipitation

This summary paper reports progress on an ongoing investigation of radiation belt electron pitch-angle scattering by plume hiss waves. We further analyze an electron precipitation event observed by BARREL, first reported in [1]. We find that the bremsstrahlung x-ray spectrum observed by BARREL is not consistent with an exponential precipitating electron energy spectrum, and is harder than the trapped electron spectrum measured by Van Allen Probes. We extend our quasi-linear diffusion model to consider a more realistic initial electron energy spectrum. The evolution of the electron phase space density towards a harder energy spectrum is qualitatively consistent with the BARREL observations and is attributed to the rapid loss of low energy particles at early times during their non-equilibrium interaction with the plume hiss waves.

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2022 3rd URSI Atlantic and Asia Pacific Radio Science Meeting (AT-AP-RASC)

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