Tracing Saturn’s Watery Past: JWST Detects Heavy Water on Saturn’s Moons
Using JWST, Brown et al. detected deuterated water (heavy water) on Saturn’s icy moons, finding D/H ratios about 1.5 times higher than Earth’s oceans. This consistency across moons suggests they formed from the same cold, unprocessed ices, not from a hot gas disk. The results rule out earlier claims of extreme D/H on Phoebe and provide new insight into how Saturn’s satellites and solar system ices formed.
A Cool Ocean World Beyond Earth? JWST Reveals K2-18 b’s Watery Interior
Renyu Hu et al. used JWST to study the atmosphere of K2-18 b, a temperate sub-Neptune. They detected methane and carbon dioxide but no water vapor, suggesting a water-rich interior beneath a thin hydrogen atmosphere. The findings hint at a possible liquid-water ocean, though alternative models remain plausible.
Decoding WASP-43b: Exploring Water in a Distant Gas Giant's Atmosphere
Scientists studied the atmosphere of the hot Jupiter WASP-43b using high-resolution spectroscopy, detecting water with a precise abundance measurement. Other molecules like methane and carbon dioxide were not found, and the carbon-to-oxygen ratio was constrained to less than 0.95. The findings align with prior observations from JWST, supporting a clearer day side and cloudy night side. Future telescopes may uncover more details about the planet's atmospheric composition.