Observations from the James Webb Space Telescope show how Jupiter reacts to its moons through auroral footprints, plasma interactions, and rapid electron flows detected in infrared measurements.

“Our findings suggest that Jupiter’s moons did not form as chemically pristine worlds,” Mousis said. “Instead, they may have accreted, or accumulated, a significant inventory of COMs at birth, ...

An international team of scientists, led by a PhD researcher from Northumbria University, has made groundbreaking discoveries ...

Astronomy textbooks worldwide may need updating after scientists announced a surprising discovery about Jupiter.

Jupiter’s icy moons may have been seeded with the chemical ingredients for life from the very beginning. An international ...

SAN ANTONIO — Oct. 9, 2007 — During the first traversal nearly straight down any planet’s magnetotail, the Solar Wind Around Pluto (SWAP) instrument aboard New Horizons gathered remarkable new data on ...

New research suggests that Jupiter’s icy moons may have formed with complex organic molecules already embedded in their building blocks.

An international team of scientists, led by a Ph.D. researcher from Northumbria University, has made further discoveries about a spectacular feature of Jupiter's northern lights, revealing a ...