Earth's magnetosphere is a relatively round and symmetrical bubble, almost perfectly aligned with the planet's axis of rotation. Saturn's, however, is far from being so well-structured. By analyzing ...

Saturn’s magnetic shield is not symmetrical. A new study analyzing data from NASA’s Cassini spacecraft has found that the planet’s magnetic cusps, the funnel-shaped openings where solar wind can ...

Saturn’s magnetosphere, a vast and dynamic region dominated by the planet’s intrinsic magnetic field, plays a pivotal role in governing its interactions with the solar wind. The interplay between ...

Saturn’s magnetic field isn’t the smooth, symmetrical shield scientists see around Earth. Instead, it’s noticeably skewed, and researchers now think they understand why. By analyzing years of data ...

Saturn’s magnetosphere is a vast, rotating magnetic cavity enveloping the planet, sculpted by the interplay of internal plasma sources and the impinging solar wind. Geysers on the moon Enceladus ...

Saturn’s magnetic shield does not sit where many scientists would expect. After combing through years of data from the Cassini spacecraft, researchers found that a key opening in Saturn’s ...

"A better understanding of Saturn’s environment is especially urgent now as plans for our return to Saturn and its moon Enceladus start to be developed." When you purchase through links on our site, ...

Saturn's magnetic shield is asymmetrical compared to Earth’s, suggests a new study involving University College London (UCL) researchers, and this is likely a result of its fast rotation coupled with ...

Using an innovative camera on NASA’s Cassini spacecraft, scientists have captured images of a radiation belt inside the rings of Saturn and have the clearest picture yet of the planet’s giant ...

Scientist using the Cassini spacecraft’s Magnetospheric Imaging instrument (MIMI) have detected a new, temporary radiation belt at Saturn, located around the orbit of its moon Dione at about 377,000 ...

Saturn's magnetic shield is asymmetrical compared to Earth's, suggests a new study involving University College London (UCL) researchers, and this is likely a result of its fast rotation coupled with ...