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JWST has taken pictures of clouds on Saturn鈥檚 moon Titan

The James Webb Space Telescope and the Keck Observatory in Hawaii have watched clouds changing shape in the sky of Titan, Saturn鈥檚 largest moon, which could help us understand its weird atmosphere
Clouds on Titan over 36 hours between November 4 and November 6, 2022, as seen by JWST (left) and Keck (right)
Clouds on Titan as seen by JWST (left) and Keck (right)
NASA, ESA, CSA, Webb Titan GTO Team, Alyssa Pagan (STScI)

The James Webb Space Telescope (JWST) and the W. M. Keck Observatory in Hawaii have taken images revealing clouds floating across the skies of Titan, Saturn鈥檚 largest moon. These images will help researchers understand weather patterns on Titan, the only world other than Earth known to have liquid oceans on its surface.

The left image was taken by JWST on 4 November. Near the top of the image is Kraken Mare, Titan鈥檚 largest known sea, flanked by two fluffy white clouds. It is currently summertime in Titan鈥檚 northern hemisphere, the time when clouds were expected to form most easily because of the increased sunshine on the surface. These observations confirm the presence of those seasonal clouds.

In an effort to find out whether the clouds were moving or changing shape, the JWST team reached out to researchers at the Keck Observatory and asked them to take follow-up observations. The image from Keck, taken on 6 November, is on the right.

鈥淲e were concerned that the clouds would be gone when we looked at Titan two days later with Keck, but to our delight there were clouds at the same positions, looking like they had changed in shape,鈥 said at the University of California, Berkeley, in a .

Delving deeper into the data should help researchers understand air circulation on Titan, which is the only moon in the solar system with a thick atmosphere. Additional observations are expected to come down from JWST in mid-2023, which will include information on the composition of Titan鈥檚 atmosphere and surface, and could help scientists figure out why the moon鈥檚 south pole looks so bright in these images.

Titan鈥檚 thick atmosphere and liquid hydrocarbon rivers and seas make it a prime location to hunt for life, and these observations may unravel how it became so much more hospitable than the other moons in the solar system.

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Topics: James Webb space telescope / Titan