JWST finally detects radiation from Pluto that conclusively determines that Pluto's haze indeed impacts its climate.

NASA's New Horizons spacecraft captured this image of Pluto's surface shrouded in atmospheric haze. (Credit: NASA/JHUAPL/SwRI) The first observations of Pluto by NASA’s James Webb Space Telescope ...

JWST confirms Pluto’s haze cools its mesosphere and drives methane escape, coating Charon’s poles red. The haze absorbs UV light, heats the upper atmosphere, and re-radiates heat as infrared.

Simultaneously cooling Pluto while energizing atmospheric molecules to allow them to escape into space, Pluto's haze plays a key role in the planet's energy balance.

New data captured by the James Webb Space Telescope has finally given astronomers new clues about how Pluto cools itself.

James Webb Space Telescope observations suggest Pluto’s atmosphere is unlike any other in the solar system, confirming a 2017 ...

On Earth, for example, we know that the greenhouse gas carbon dioxide has a central effect of ... of the James Webb Space Telescope, a new instrument that can measure Pluto’s infrared footprint ...

According to Zhang, the excess infrared radiation from haze particles in Pluto's atmosphere should be detectable by the James Webb Space Telescope ... in studying the effects of haze particles ...

the James Webb Space Telescope (JWST) recently took a closer look at Pluto’s moon Charon, where it helped scientists to make a surprising discovery. Charon, the largest and most well-studied of ...

The first observations of Pluto by NASA's James Webb Space Telescope (JWST) reveal dramatic phenomena on its surface, like ...

The James Webb Space Telescope (JWST ... Zhang also realized that the haze could have a cooling effect on Pluto's atmosphere — an effect that had previously been detected in Pluto's mesosphere ...