The planet’s elusive aurorae are much colder than expected, which is how they evaded detection for so long.

Here's where the James Webb Space Telescope comes in. Its advanced technology, including its large mirror and suite of ...

Long-Sought Auroral Glow Finally Emerges Under Webb’s Powerful Gaze Neptune lies in the cold, dark reaches of the outer edges ...

James Webb Space Telescope captures Neptune’s auroras, revealing new details about its atmosphere and magnetism.

Jupiter’s striking size, swirling gases, and dramatic bands in its atmosphere set it apart from every other planet. One of ...

The capability to switch “on” and “off” between infrared stealth states has been regarded as a future technology and is ...

Without the ability to control infrared light waves, autonomous vehicles wouldn't be able to quickly map their environment and keep "eyes" on the cars and pedestrians around them; augmented reality ...

The light curves created using infrared radiation data ... such as carbon monoxide, in the atmosphere may have been responsible, absorbing radiation at some wavelengths at certain times.

Neptune was the missing piece of the puzzle when it came to detecting auroras on the giant planets of our solar system.

Scientists using the James Webb Space Telescope (JWST) have delved into the atmosphere of the scorching ... mode of JWST's Near Infrared Imager and Slitless Spectrograph (NIRISS) to study LTT ...