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

A twisting, whirling streamer of plasma escaping the sun in the aftermath of a coronal mass ejection (CME) has been captured ...

"The solar wind squished Jupiter's magnetic shield like a giant squash ball. This created a super-hot region that spans half ...

Decades of data collected by the Hubble Space Telescope has given an international team of astronomers fresh insight into ...

How can the solar wind influence Jupiter’s massive magnetic field? This is what a recent study published in Geophysical ...

Scientists now believe that solar bursts hit the largest planet of our solar system two to three times a month.

A solar wind event from 2017 that hit Jupiter and compressed its magnetosphere created a hot region spanning half Jupiter's circumference.

Thanks to the Hubble Space Telescope, we now know that a day on Uranus lasts for 28 seconds longer than previously thought - ...

For the first time, NASA's Juno spacecraft has observed powerful solar winds squishing Jupiter's magnetic field, likened to a ...

Scientists say a vast region of unexpectedly high temperatures in Jupiter's upper atmosphere was caused by a massive wave of solar wind.

An eerie new video from ESA's Solar Orbiter shows a towering 'cyclone' of plasma exhibiting behaviors never seen before on ...

shaped by its own magnetic field. (Earth has one, too! In fact, life would not be possible without it.) "We have never captured Jupiter's response to solar wind before — and the way it changed ...