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Auroral Hiss Emissions During Cassini's Grand Finale: Diverse Electrodynamic Interactions Between Saturn and Its Rings
Author(s) -
Sulaiman A. H.,
Kurth W. S.,
Hospodarsky G. B.,
Averkamp T. F.,
Persoon A. M.,
Menietti J. D.,
Ye S.Y.,
Gurnett D. A.,
Píša D.,
Farrell W. M.,
Dougherty M. K.
Publication year - 2018
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2018gl077875
Subject(s) - saturn , hiss , physics , planet , magnetosphere of saturn , plasma , magnetosphere , astronomy , astrobiology , geophysics , magnetopause , quantum mechanics , electron
The Cassini Grand Finale orbits offered a new view of Saturn and its environment owing to multiple highly inclined orbits with unprecedented proximity to the planet during closest approach. The Radio and Plasma Wave Science instrument detected striking signatures of plasma waves in the southern hemisphere. These all propagate in the whistler mode and are classified as (1) a filled funnel‐shaped emission, commonly known as auroral hiss. Here however, our analysis indicates that they are likely associated with currents connected to the rings. (2) First observations of very low frequency saucers directly linked to the planet on field lines also connected to the rings. The latter observations are unique to low altitude orbits, and their presence at the Earth and Saturn alike shows that they are fundamental plasma waves in planetary ionospheres. Our results give an insight, from a unique perspective, into the dynamic and diverse nature of Saturn's environment.