Updated
Updated · spacedaily.com · Jul 7
JWST Confirms 280-Kelvin Daily Mineral Cloud Cycle on WASP-94A b
Updated
Updated · spacedaily.com · Jul 7

JWST Confirms 280-Kelvin Daily Mineral Cloud Cycle on WASP-94A b

2 articles · Updated · spacedaily.com · Jul 7

Summary

  • WASP-94A b, nearly 700 light-years away, shows cloudy cooler mornings and clearer hotter evenings as mineral clouds form and evaporate within one circulation cycle.
  • 11-sigma temperature and 6-sigma limb differences came from JWST limb-resolved transit spectroscopy, which separated the planet’s morning and evening edges instead of averaging them into one atmosphere.
  • The morning limb appears cloud-covered, likely with magnesium-silicate aerosols lofted near millibar pressures, while the clearer evening limb shows a 10-sigma water-vapor signal after the droplets evaporate.
  • That split also revised the hot Jupiter’s inferred composition, suggesting earlier Hubble-style averaged spectra can overstate heavy-element abundance by mixing distinct weather states.
  • The result gives exoplanet researchers a test case for reading smaller, fainter worlds, showing that clouds are part of atmospheric physics rather than just noise hiding chemistry.

Insights

What other atmospheric secrets will JWST's new 3D mapping technique uncover on distant worlds?
If rock clouds can form on hot Jupiters, what exotic weather might we find on potentially habitable worlds?
Now that we know atmospheres vary by region, how many past exoplanet findings must be re-evaluated?