Jupiter’s early magnetic field strength is estimated ... easily disable or destroy an unprotected spacecraft.Even today, NASA missions like Juno contend with Jupiter's radiation by using heavily ...

Research reveals Jupiter was larger with a stronger magnetic field early on. Jupiter's primordial size was about twice its current radius, say researchers. Clues from 4.5 billion years ago help ...

New observations from NASA's James Webb Space Telescope have revealed that auroras on Jupiter are hundreds of times brighter ...

NASA’s Juno spacecrafthas once again delivered breathtaking images of Jupiter, capturing the giant planet’s swirling storms and cloud bands in extraordinary detail. These latest photos, taken during ...

While the moon once had a weak magnetic field generated by a small molten core, the team's research suggests it likely wouldn ...

Aside from the Sun’s particles, Jupiter has an additional source that creates its auroras. Jupiter’s strong magnetic field ... collected by the ongoing Juno mission. The spacecraft has been ...

The infrared views, captured in 2023, shed light on the giant planet's atmosphere and magnetosphere—but they also reveal something unexpected ...

While solar storms contribute to auroras on Jupiter, the giant planet’s magnetic field also captures ... and comparisons to data from NASA’s Juno spacecraft.

The universe is soaked in weak-but-persistent magnetic fields. Despite decades of research, astronomers still aren't exactly ...

The researchers also determined that Jupiter's magnetic field at that time was approximately 50 times stronger than it is today. Adams highlights the remarkable imprint the past has left on today ...

With an atmosphere, by mass, of primarily hydrogen (76 per cent) and helium (24 per cent), and by volume of 89 per cent ...