No umbrella needed: Confronting the hypothesis of iron rain on WASP-76b with post-processed general circulation models
(2021)
A multispecies pseudoadiabat for simulating condensable-rich exoplanet atmospheres
ArXiv 2108.12902 (2021)
INFUSE: assembly and alignment of a rocket-borne FUV integral field spectrograph
Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 11821 (2021) 118210f-118210f-12
Meridional variations on C2H2 in Jupiter's stratosphere from Juno UVS observations
Journal of Geophysical Research: Planets American Geophysical Union 126:8 (2021) e2021JE006928
Abstract:
The Ultraviolet Spectrograph (UVS) instrument on the Juno mission records far-ultraviolet reflected sunlight from Jupiter. These spectra are sensitive to the abundances of chemical species in the upper atmosphere and to the distribution of the stratospheric haze layer. We combine observations from the first 30 perijoves of the mission in order to study the meridional distribution of acetylene (C2H2) in Jupiter's stratosphere. We find that the abundance of C2H2 decreases toward the poles by a factor of 2–4, in agreement with previous analyses of mid-infrared spectra. This result is expected from insolation rates: near the equator, the UV solar flux is higher, allowing more C2H2 to be generated from the UV photolysis of CH4. The decrease in abundance toward the poles suggests that horizontal mixing rates are not rapid enough to homogenize the latitudinal distribution.Leveraging Models to Constrain the Climates of Rocky Exoplanets
(2021)