A 'Super-Puff' Planet Like No Other
upstart writes in with an IRC submission for c0lo:
A 'super-puff' planet like no other:
The core mass of the giant exoplanet WASP-107b is much lower than what was thought necessary to build up the immense gas envelope surrounding giant planets like Jupiter and Saturn, astronomers at Universite de Montreal have found.
This intriguing discovery by Ph.D. student Caroline Piaulet of UdeM's Institute for Research on Exoplanets (iREx) suggests that gas-giant planets form a lot more easily than previously believed.
Piaulet is part of the groundbreaking research team of UdeM astrophysics professor Bjorn Benneke that in 2019 announced the first detection of water on an exoplanet located in its star's habitable zone.
Published today in the Astronomical Journal with colleagues in Canada, the U.S., Germany and Japan, the new analysis of WASP-107b's internal structure "has big implications," said Benneke.
"This work addresses the very foundations of how giant planets can form and grow," he said. "It provides concrete proof that massive accretion of a gas envelope can be triggered for cores that are much less massive than previously thought."
WASP-107b was first detected in 2017 around WASP-107, a star about 212 light years from Earth in the Virgo constellation. The planet is very close to its star -- over 16 times closer than the Earth is to the Sun. As big as Jupiter but 10 times lighter, WASP-107b is one of the least dense exoplanets known: a type that astrophysicists have dubbed "super-puff" or "cotton-candy" planets.
[...] "Exoplanets like WASP-107b that have no analogue in our Solar System allow us to better understand the mechanisms of planet formation in general and the resulting variety of exoplanets," [Piaulet] said. "It motivates us to study them in great detail."
Journal Reference:
Caroline Piaulet, Bjorn Benneke, et al. WASP-107b's Density Is Even Lower: A Case Study for the Physics of Planetary Gas Envelope Accretion and Orbital Migration - IOPscience, The Astronomical Journal (DOI: 10.3847/1538-3881/abcd3c)
Read more of this story at SoylentNews.