Ray‐Tracing Analysis for the Propagation of Saturn Narrowband Emission Within the Saturnian Magnetosphere

Wu, Siyuan; Taubenschuss, Ulrich; Ye, Shengyi; Fischer, Georg; Cecconi, Baptiste; Wang, Mengmeng; Tao, Tao; Long, Minyi; Lu, Peng; Liu, Yuqi; Kurth, William S.; Jackman, Caitriona M.; Zarka, Philippe; Baskevitch, Claire; Feng, Xuedong

doi:10.1029/2023je008118

JGR Planets

2024

DOI: 10.1029/2023je008118

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Ray‐Tracing Analysis for the Propagation of Saturn Narrowband Emission Within the Saturnian Magnetosphere

Siyuan Wu,

Ulrich Taubenschuss,

Shengyi Ye

et al.

Abstract: This study investigates the propagation characteristics of Saturn's Narrowband (NB) emissions using a 3D ray‐tracing code incorporating Saturn's magnetic field and electron density parameters. The potential source regions and propagation zones of the L‐O mode, Z mode and whistler mode NB emissions are distinguished. The L‐O mode NB emissions, generated along local electron plasma frequency surfaces through mode conversion, exhibit straight‐line propagation but undergo reflections between the ionosphere, the pl… Show more

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Formation of an Extended Equatorial Shadow Zone for Low‐Frequency Saturn Kilometric Radiation

Wu,

Ye,

Taubenschuss

et al. 2024

Geophysical Research Letters

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Saturn Kilometric Radiation (SKR), being the dominant radio emission at Saturn, has been extensively investigated. The low‐frequency extension of SKR is of particular interest due to its strong association with Saturn's magnetospheric dynamics. However, the highly anisotropic beaming of SKR poses challenges for observations. In most cases, the propagation of SKR is assumed to follow straight‐line paths. We explore the propagation characteristics of SKR across different frequencies in this study. An extended equatorial shadow region for low‐frequency SKR is identified, resulting from the merging of the Enceladus plasma torus and the previously known equatorial shadow zone. Ray‐tracing simulations reveal that low‐frequency (100 kHz) SKR is unable to enter the shadow region and is instead reflected toward high latitudes. In contrast, high‐frequency SKR (100 kHz) generally propagates without hindrance. Observations suggest that some low‐frequency SKR can enter the shadow region through reflection by the magnetosheath or leakage from the plasma torus.

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Formation of an Extended Equatorial Shadow Zone for Low‐Frequency Saturn Kilometric Radiation

Wu,

Ye,

Taubenschuss

et al. 2024

Geophysical Research Letters

View full text Add to dashboard Cite

show abstract

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Ray‐Tracing Analysis for the Propagation of Saturn Narrowband Emission Within the Saturnian Magnetosphere

Cited by 1 publication

References 77 publications

Formation of an Extended Equatorial Shadow Zone for Low‐Frequency Saturn Kilometric Radiation

Formation of an Extended Equatorial Shadow Zone for Low‐Frequency Saturn Kilometric Radiation

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