A spherical harmonic model of the magnetic field of Jupiter is obtained from vector magnetic
field observations acquired by the Juno spacecraft during 32 of its first 33 polar orbits. These …

Accurate knowledge of the properties of hydrogen at high compression is crucial for
astrophysics (eg, planetary and stellar interiors, brown dwarfs, atmosphere of compact stars) …

The Voyager 2 flybys of Uranus and Neptune revealed the first multipolar planetary
magnetic fields and highlighted how much we have yet to learn about ice giant planets. In …

During the past few years, both the Cassini mission at Saturn and the Juno mission at
Jupiter provided measurements with unprecedented accuracy of the gravity and magnetic …

The ongoing NASA's Juno mission puts new constraints on the internal dynamics of Jupiter.
Data gathered by its onboard magnetometer reveal a dipole-dominated surface magnetic …

Jupiter's weather layer exhibits long-term and quasi-periodic cycles of meteorological
activity that can completely change the appearance of its belts and zones. There are cycles …

Unique information about the dynamo process acting at Jupiter can be inferred by modeling
and interpreting its magnetic field. Using the fluxgate magnetometer measurements …

Accurate knowledge of the properties of hydrogen at high compression is crucial for
astrophysics (eg planetary and stellar interiors, brown dwarfs, atmosphere of compact stars) …

Abstract The Cassini Grand Finale orbits provided detailed observations of Saturn's internal
magnetic field. Unique characteristics of the observed field, such as its axisymmetry and …

At sufficiently high pressures (∼ Mbar) and low temperatures (∼ 10 3–10 4 K), hydrogen
and helium become partly immiscible. Interpretations of Jupiter's and Saturn's magnetic …