Jupiter, the largest planet in our solar system, is renowned for its complex magnetosphere and spectacular auroras. The study of Jupiter's magnetosphere involves understanding the magnetic field ...

Chorus waves, quick bursts of energy known to occur relatively close to Earth and around other planets, were found in an ...

"This happened inside Jupiter’s magnetosphere where the dust gets electrically charged, and in addition to Jupiter’s gravity, electromagnetic forces move particles on orbits that remain tied ...

“We’re going to be spending a lot of time in Jupiter’s magnetosphere and we’re going to be coming up out of the equatorial plane, so JUICE will see the environment in a view that hasn't ...

Loki Patera is 202 kilometres (126 mi) in diameter, covers 20,000 sq km (7,700 sq mi), and was the largest volcanic feature found on Io until these new observations revealed the hot spot in the south ...

Chorus waves are mysterious, chirping signals produced by spiraling plasma inside our planet's magnetic field. But a new ...

and magnetosphere. Marissa Vogt, a researcher involved in the mission, emphasized the importance of these observations in understanding Jupiter’s formation and evolution. Juno’s advanced ...

was the observation of the second most intense electron radiation belt after Jupiter’s. How such a belt could be maintained or even exist at Uranus lacked an explanation until now. “The other mystery ...

Jan. 15, 2025 — Hot Jupiters are giant planets initially known to orbit alone close to their star. During their migration towards their star, these planets were thought to accrete or eject any ...

NASAs Juno probe has discovered a massive volcanic hot spot on Jupiters moon Io. The hot spot emits 80 trillion watts of ...

NASA’s Juno spacecraft snapped a stunning image of a cloud on Jupiter shaped like a dolphin, proving that even science has an ...

The spacecraft has been orbiting our solar system’s gas giant, Jupiter, for several years ... how that activity may interact with Jupiter’s magnetosphere, which bathes Io in intense radiation.