Jupiter's Whistler-Mode Belts and Electron Slot Region

IF 2.9 2区地球科学 Q2 ASTRONOMY & ASTROPHYSICS Journal of Geophysical Research: Space Physics Pub Date : 2024-12-06 DOI:10.1029/2024JA032850

Y.-X. Hao, Y. Y. Shprits, J. D. Menietti, Z. Y. Liu, T. Averkamp, D. D. Wang, P. Kollmann, G. B. Hospodarsky, A. Drozdov, E. Roussos, N. Krupp, R. B. Horne, E. E. Woodfield, S. J. Bolton

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Abstract

The spatial distribution of whistler-mode wave emissions in the Jovian magnetosphere measured during the first 45 perijove orbits of Juno is investigated. A double-belt structure in whistler-mode wave intensity is revealed. Between the two whistler-mode belts, there exists a region devoid of 100 s keV electrons near the magnetic equator at $9 < M < 16$ . Insufficient source electron population in such an electron “slot” region is a possible explanation for the relatively lower wave activity compared to the whistler-mode belts. The wave intensity of the outer whistler-mode belt measured in the dusk-premidnight sector is significantly stronger than in the postmidnight-dawn sector. We suggest that the inherent dawn-dusk asymmetries in source electron distribution and/or auroral hiss emission rather than the modulation of solar cycle are more likely to result in the azimuthal variation of outer whistler-mode belt intensity during the first 45 Juno perijove orbits.

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木星的哨声模式带和电子槽区

研究了朱诺探测器在绕木星轨道运行的前45个轨道中探测到的木星磁层中哨子波发射的空间分布。揭示了哨子模波强的双带结构。在两个哨子模式带之间，在9 <的磁赤道附近存在一个没有100 s keV电子的区域；米 & lt;16 $ 9 & lt;M<16 $ .在这样一个电子“槽”区，源电子数量不足可能是相对于哨子模式带较低的波活动的一个解释。外哨子模带在黄昏-午夜前区域的波强明显强于午夜-黎明后区域。我们认为，在朱诺号的前45个近木星轨道上，源电子分布和/或极光嘶嘶发射的固有黎明-黄昏不对称性，而不是太阳周期的调制，更可能导致外哨声模式带强度的方位角变化。

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