An empirical model of the global distribution of plasmaspheric hiss based on Van Allen Probes EMFISIS measurements

IF 2.9 3区 地球科学
JingZhi Wang, Qi Zhu, XuDong Gu, Song Fu, JianGuang Guo, XiaoXin Zhang, Juan Yi, YingJie Guo, BinBin Ni, Zheng Xiang
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引用次数: 3

Abstract

Using wave measurements from the EMFISIS instrument onboard Van Allen Probes, we investigate statistically the spatial distributions of the intensity of plasmaspheric hiss waves. To reproduce these empirical results, we establish a fitting model that is a third-order polynomial function of L-shell, magnetic local time (MLT), magnetic latitude (MLAT), and AE*. Quantitative comparisons indicate that the model's fitting functions can reflect favorably the major empirical features of the global distribution of hiss wave intensity, including substorm dependence and the MLT asymmetry. Our results therefore provide a useful analytic model that can be readily employed in future simulations of global radiation belt electron dynamics under the impact of plasmaspheric hiss waves in geospace.

基于范艾伦探测器EMFISIS测量的等离子体层嘶嘶全球分布的经验模型
利用范艾伦探测器上的EMFISIS仪器测量的波,我们统计地研究了等离子体层嘶嘶波强度的空间分布。为了再现这些经验结果,我们建立了一个拟合模型,该模型是l -壳、磁局部时间(MLT)、磁纬度(MLAT)和AE*的三阶多项式函数。定量比较表明,该模型的拟合函数较好地反映了全球嘶嘶波强度分布的主要经验特征,包括次暴依赖性和MLT不对称性。因此,我们的结果提供了一个有用的分析模型,可以很容易地用于未来地球空间等离子体层嘶嘶波影响下全球辐射带电子动力学的模拟。
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来源期刊
Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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