Saturn's magnetic field revealed by the Cassini Grand Finale.
Michele K DoughertyHao CaoKrishan K KhuranaGregory J HuntGabrielle ProvanStephen KellockMarcia E BurtonThomas A BurkEmma J BunceStanley W H CowleyMargaret G KivelsonChristopher T RussellDavid J SouthwoodPublished in: Science (New York, N.Y.) (2019)
During 2017, the Cassini fluxgate magnetometer made in situ measurements of Saturn's magnetic field at distances ~2550 ± 1290 kilometers above the 1-bar surface during 22 highly inclined Grand Finale orbits. These observations refine the extreme axisymmetry of Saturn's internal magnetic field and show displacement of the magnetic equator northward from the planet's physical equator. Persistent small-scale magnetic structures, corresponding to high-degree (>3) axisymmetric magnetic moments, were observed. This suggests secondary shallow dynamo action in the semiconducting region of Saturn's interior. Some high-degree magnetic moments could arise from strong high-latitude concentrations of magnetic flux within the planet's deep dynamo. A strong field-aligned current (FAC) system is located between Saturn and the inner edge of its D-ring, with strength comparable to the high-latitude auroral FACs.