Solar system

Convection modeling of pure-steam atmospheres

Astrophysical Journal Letters American Astronomical Society 923:1 (2021) L15

Authors:

Xianyu Tan, Maxence Lefèvre, Raymond T Pierrehumbert

Abstract:

Condensable species are crucial to shaping planetary climate. A wide range of planetary climate systems involve understanding nondilute condensable substances and their influence on climate dynamics. There has been progress on large-scale dynamical effects and on 1D convection parameterization, but resolved 3D moist convection remains unexplored in nondilute conditions, though it can have a profound impact on temperature/humidity profiles and cloud structure. In this work, we tackle this problem for pure-steam atmospheres using three-dimensional, high-resolution numerical simulations of convection in postrunaway atmospheres. We show that the atmosphere is composed of two characteristic regions, an upper condensing region dominated by gravity waves and a lower noncondensing region characterized by convective overturning cells. Velocities in the condensing region are much smaller than those in the lower, noncondensing region, and the horizontal temperature variation is small. Condensation in the thermal photosphere is largely driven by radiative cooling and tends to be statistically homogeneous. Some condensation also happens deeper, near the boundary of the condensing region, due to triggering by gravity waves and convective penetrations and exhibits random patchiness. This qualitative structure is insensitive to varying model parameters, but quantitative details may differ. Our results confirm theoretical expectations that atmospheres close to the pure-steam limit do not have organized deep convective plumes in the condensing region. The generalized convective parameterization scheme discussed in Ding & Pierrehumbert is appropriate for handling the basic structure of atmospheres near the pure-steam limit but cannot capture gravity waves and their mixing which appear in 3D convection-resolving models.

Hypotheses for Triton's Plumes: New Analyses and Future Remote Sensing Tests

(2021)

Authors:

Jason D Hofgartner, Samuel PD Birch, Julie Castillo, Will M Grundy, Candice J Hansen, Alexander G Hayes, Carly JA Howett, Terry A Hurford, Emily S Martin, Karl L Mitchell, Tom A Nordheim, Michael J Poston, Louise M Prockter, Lynnae C Quick, Paul Schenk, Rebecca N Schindhelm, Orkan M Umurhan

New Evidence for Wet Accretion of Inner Solar System Planetesimals from Meteorites Chelyabinsk and Benenitra

The Planetary Science Journal American Astronomical Society 2:6 (2021) 244

Authors:

Ziliang Jin, Maitrayee Bose, Tim Lichtenberg, Gijs D Mulders

Questions to Heaven: InSight’s attempted detection of Zhurong landing on Mars

Astronomy and Geophysics

Authors:

Benjamin Fernando et al

Abstract:

Resonances of the InSight Seismometer on Mars

Bulletin of the Seismological Society of America Seismological Society of America (SSA) 111:6 (2021) 2951-2963

Authors:

Kenneth Hurst, Lucile Fayon, Brigitte Knapmeyer-Endrun, Cedric Schmelzbach, Martin van Driel, Joan Ervin, Sharon Kedar, William T Pike, Simon Calcutt, Tristram Warren, Constantino Charalambous, Alexander Stott, Marco Bierwirth, Philippe Lognonne, Sebastien de Raucourt, Taoufik Gabsi, Tanguy Nebut, Oliver Robert, Sylvain Tillier, Savas Ceylan, Maren Böse, John Clinton, Domenico Giardini, Anna Horleston, Taichi Kawamura, Amir Khan, Guenole Orhand-Mainsant, John-Robert Scholz, Simon Stähler, Jennifer Stevanovic, William B Banerdt