Plasma waves are a critical element to understanding the many mysteries of the gas giant’s turbulent, magnetically powerful ...

The researchers also determined that Jupiter's magnetic field at that time was approximately 50 times stronger than it is today.

A massive solar windstorm in 2017 compressed Jupiter's magnetosphere "like a giant squash ball," a new study reports.

Jupiter, the largest planet in our Solar System, is 11 times wider than Earth, and has a mass 2.5 times greater than all of ...

Observations from NASA’s Juno spacecraft reveal that Jupiter’s strong magnetic field and the unique properties of its plasma ...

Long theorized but never observed, the first known “planet with a death wish” is described by Ilin and her colleagues in a study published July 2 in Nature.

A powerful new technique harnesses swirling plasma inside laser-blasted microtubes to produce record-breaking magnetic fields ...

Jupiter was twice as big as it is today and had a magnetic field 50 times stronger Our Solar System's largest planet, Jupiter, was once so huge that it could have held 2,000 Earths, a study has found.

RECENT radio observations of Jupiter, in the frequency-range 14–27 Mc./s., have suggested the presence of an ionosphere and a magnetic field on the planet. If the magnetic field is regarded as ...

The dark UV ovals hint at unusual processes taking place in Jupiter's strong magnetic field that propagate down to the poles and deep into the atmosphere, far deeper than the magnetic processes ...

NASA’s Juno spacecraft has detected an unusual new variety of plasma phenomenon occurring over Jupiter's north pole.

Some exoplanets in their stars' habitable zones may be distinctly uninhabitable due to solar flaring. Red dwarfs are known ...