Abstract
AbstractWe analyze periapsis pass magnetic field data from the final 23 orbits of the Cassini spacecraft at Saturn, uniquely encompassing auroral, subauroral, ring region, and intra‐ring field lines, to determine the planetary period oscillations (PPOs) and mean residual fields in these regions. Dual modulation by northern and southern PPO systems is found almost continuously, demonstrating for the first time the presence of PPOs on and inside ring region field lines. The azimuthal component displays the largest ~10–15nT PPO amplitudes on auroral field lines, falling across the subauroral region to ~3–5 nT on main ring field lines in the northern hemisphere, less in the southern hemisphere, while increasing to ~5–8 nT on D ring and intra‐D ring field lines. Auroral and subauroral amplitudes mapped along field lines are in good agreement with previous analyses in regions of overlap. Colatitudinal and radial field oscillations generally have a half and a quarter the amplitude of the azimuthal component, respectively. Inner region oscillation phases are typically several tens of degrees “earlier” than those of outer subauroral and auroral regions. Mean residual poloidal fields (internal and ring current fields subtracted) show quasi‐sinusoidal latitude variations of ~2.5nT amplitude, with radial and colatitudinal fields approximately in quadrature. Mean azimuthal fields peaking at ~15 nT are approximately symmetrical about the equator on and inside D ring field lines as previously reported, but are unexpectedly superposed on ~3–5nT “lagging” fields which extend continuously through the ring region onto subauroral field lines north and south.
Highlights
A major property of Saturn's magnetosphere which has received significant investigation during the Cassini mission is the modulations observed near Saturn's rotation period throughout the system, despite the perfect axisymmetry of the internal planetary magnetic field to within measurement uncertainty
This choice was made for the planetary period oscillations (PPOs) analysis in order to clearly organize the data by physical regime, as in previous related analyses, this leads to the exclusion of data from some more deeply penetrating passes that map to marginally larger colatitudes than the upper limit of 72° employed here, this limit being set by the requirement of having sufficient data in each bin to obtain good coverage of PPO phase
This manner of combining the data might not be optimum for examining the mean values of the poloidal components in the immediate equatorial region, the results are sufficient to show the general nature of the mean residual fields, which vary quasi‐sinusoidally with latitude with ~5‐nT peak‐to‐peak amplitude in approximate quadrature between the radial and colatitudinal components (see Dougherty et al (2018))
Summary
A major property of Saturn's magnetosphere which has received significant investigation during the Cassini mission is the modulations observed near Saturn's rotation period throughout the system, despite the perfect axisymmetry of the internal planetary magnetic field to within measurement uncertainty. Analysis of the auroral‐related radio emissions, of Saturn kilometric radiation (SKR), was the first to show that two such modulation systems are simultaneously present, one associated with the northern polar hemisphere and the other with the southern polar hemisphere, in general having slightly differing periods (Gurnett, Lecacheux, et al, 2009; Kurth et al, 2008) Studies of these emissions were the first to show that these periods vary slowly over Saturn's seasons, by up to ~±1% about a mean period of ~10.7 hr (Fischer et al, 2015; Galopeau & Lecacheux, 2000; Gurnett et al, 2010, 2011; Lamy, 2011, 2017; Ye et al, 2016). The Cassini orbital mission from July 2004 to September 2017 spanned just less than half a Journal of Geophysical Research: Space Physics
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