Neptune’s auroras captured in great detail by Nasa’s Webb telescope

Neptune’s glowing auroras have been captured in the best detail yet by Nasa’s James Webb Space Telescope.

Hints of auroras were first faintly detected in ultraviolet light during a flyby by the Voyager 2 spacecraft in 1989.

Webb captured Neptune’s shimmering lights in infrared light, providing direct evidence they exist.

Nasa released the images on Wednesday and the results were published in the journal Nature Astronomy.

Auroras on any planet occur when electrically charged particles from space enter and collide with molecules in the atmosphere, creating a series of reactions that emit light.

On Earth, auroras tend to occur near the polar regions, producing spectacular northern and southern lights.

Scientists have studied auroras on Saturn and Jupiter for decades, but Neptune, the farthest planet from the sun, has been harder to see up close.

“Neptune has always been elusive,” said University of Reading planetary scientist James O’Donoghue, co-author of the new study.

Its auroras “had only been seen by Voyager, and we’ve been trying to see it again ever since”.

Neptune’s auroras occur near the mid-latitudes of the planet, not the polar regions, because of differences in its magnetic field which determine the span of auroras, said Mr O’Donoghue.

More than three decades after Voyager 2’s pass, scientists have seen Neptune’s auroras again with the powerful Webb telescope, producing “the first robust detection”, said co-author Heidi Hammel of the Association of Universities for Research in Astronomy.

The researchers also revealed that Neptune’s atmosphere has cooled significantly since the 1980s, which may have dimmed the light of the auroras.