Another First: NASA Webb Identifies Frozen Water in Young Star System
Summary
Researchers found water ice throughout a dusty debris disk circling the Sun-like star HD 181327.
We know water in its solid state — ice — exists on moons orbiting Jupiter, Saturn, Uranus, and Neptune. Telescopes have also spotted frozen water on dwarf planets, comets, and other bits of rock that “hang out” in the Kuiper Belt at the edge of our solar system. But for decades, water ice was not confirmed to exist around other stars.
The James Webb Space Telescope has unequivocally changed that: Data from its NIRSpec (Near-Infrared Spectrograph) confirmed the presence of water ice in a dusty debris disk that surrounds a star known as HD 181327.
Water ice heavily influences the formation of giant planets and may also be delivered by comets to fully formed rocky planets. Now that researchers have detected water ice with Webb, they have opened the door to studying how these processes play out in new ways — in many other planetary systems — for all researchers.
Visit NASA Science to view the full news release including article text and associated Webb imagery, graphics, scientific visualizations, videos, captions, text descriptions, and other information.
News releases highlighting the discoveries of NASA’s James Webb Space Telescope are produced for NASA by the Space Telescope Science Institute (STScI) in Baltimore, Maryland, under NASA Contract NAS5-03127. News release content is developed by the News Team in STScI’s Office of Public Outreach.
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