What can an extremely hot Neptune-sized exoplanet teach scientists about exoplanetary weather? This is what a recent study published Nature Astronomy hopes to address as an international team of researchers investigated the extreme weather patterns on the “ultra-hot Neptune” exoplanet, LTT 9,779 b, which is tidally locked to its star and orbits so close to its star that it’s causing unique cloud and weather patterns. This study has the potential to help scientists better understand the formation and evolution of ultra-hot exoplanets and how these worlds remain intact.

“This planet provides a unique laboratory to understand how clouds and the transport of heat interact in the atmospheres of highly irradiated worlds,” said Louis-Philippe Coulombe, who is a PhD student at the University of Montreal’s (UdeM) Trottier Institute for Research on Exoplanets (IREx) and lead author of the study.

Located approximately 262 light-years from Earth, LTT 9,779 b orbits its star in only 0.8 days, or just over 19 hours, meaning its tidally locked orbit results in dayside temperatures of just below 2,000 degrees Celsius (3,600 degrees Fahrenheit) while its nightside temperatures are just over 1,000 degrees Celsius (1,800 degrees Fahrenheit).