木星磁层惠斯勒模式波幅和频谱调查

IF 4.6 1区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

Geophysical Research Letters Pub Date : 2024-11-18 DOI:10.1029/2024GL111882

Q. Ma, W. Li, X.-J. Zhang, N. Kang, J. Bortnik, M. Qin, X.-C. Shen, C. J. Meyer-Reed, A. V. Artemyev, W. S. Kurth, G. B. Hospodarsky, J. D. Menietti, S. J. Bolton

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引用次数: 0

摘要

我们根据朱诺探测器的测量结果，介绍了木星磁层中从本地质子陀螺频率到赤道电子陀螺频率（fce,eq）的啸叫模式合声波和咝声波的统计分布。合声波功率谱密度通常跟随 fce,eq 变化，主要波功率集中在 0.05fce,eq-fce,eq 频率范围内。与合唱波相比，嘶嘶波频率对 fce,eq 变化的依赖性较小，其主要功率集中在 0.05fce,eq 以下，在 M < 10 处显示出与合唱波的分离。我们的调查表明，从磁赤道到纬度 20°，主要在 5.5 < M < 13 处观测到合唱波，这与赤道附近的局部波生成和阻尼效应相一致。嘶嘶声波功率一直延伸到纬度 50°，表明波的传播路径较长而没有衰减。我们的调查还包括高纬度地区的啸叫模式波，它可能源自木卫二足迹、极光嘶嘶声或反射到高 M 壳的传播嘶嘶声波。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Survey of Whistler-Mode Wave Amplitudes and Frequency Spectra in Jupiter's Magnetosphere

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Survey of Whistler-Mode Wave Amplitudes and Frequency Spectra in Jupiter's Magnetosphere

We present statistical distributions of whistler-mode chorus and hiss waves at frequencies ranging from the local proton gyrofrequency to the equatorial electron gyrofrequency (f_ce,eq) in Jupiter's magnetosphere based on Juno measurements. The chorus wave power spectral densities usually follow the f_ce,eq variation with major wave power concentrated in the 0.05f_ce,eq–f_ce,eq frequency range. The hiss wave frequencies are less dependent on f_ce,eq variation than chorus with major power concentrated below 0.05f_ce,eq, showing a separation from chorus at M < 10. Our survey indicates that chorus waves are mainly observed at 5.5 < M < 13 from the magnetic equator to 20° latitude, consistent with local wave generation near the equator and damping effects. The hiss wave powers extend to 50° latitude, suggesting longer wave propagation paths without attenuation. Our survey also includes the whistler-mode waves at high latitudes which may originate from the Io footprint, auroral hiss, or propagating hiss waves reflected to high M shells.

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来源期刊

Geophysical Research Letters 地学-地球科学综合

CiteScore

9.00

自引率

9.60%

发文量

1588

审稿时长

2.2 months

期刊介绍： Geophysical Research Letters (GRL) publishes high-impact, innovative, and timely research on major scientific advances in all the major geoscience disciplines. Papers are communications-length articles and should have broad and immediate implications in their discipline or across the geosciences. GRLmaintains the fastest turn-around of all high-impact publications in the geosciences and works closely with authors to ensure broad visibility of top papers.