Planetary atmosphere observation analysis

Correction to: Venus Evolution Through Time: Key Science Questions, Selected Mission Concepts and Future Investigations

Space Science Reviews Springer Nature 219:8 (2023) 72

Authors:

Thomas Widemann, Suzanne E Smrekar, James B Garvin, Anne Grete Straume-Lindner, Adriana C Ocampo, Mitchell D Schulte, Thomas Voirin, Scott Hensley, M Darby Dyar, Jennifer L Whitten, Daniel C Nunes, Stephanie A Getty, Giada N Arney, Natasha M Johnson, Erika Kohler, Tilman Spohn, Joseph G O’Rourke, Colin F Wilson, Michael J Way, Colby Ostberg, Frances Westall, Dennis Höning, Seth Jacobson, Arnaud Salvador, Guillaume Avice, Doris Breuer, Lynn Carter, Martha S Gilmore, Richard Ghail, Jörn Helbert, Paul Byrne, Alison R Santos, Robert R Herrick, Noam Izenberg, Emmanuel Marcq, Tobias Rolf, Matt Weller, Cedric Gillmann, Oleg Korablev, Lev Zelenyi, Ludmila Zasova, Dmitry Gorinov, Gaurav Seth, CV Narasimha Rao, Nilesh Desai

Latitudinal variations in methane abundance, aerosol opacity and aerosol scattering efficiency in Neptune's atmosphere determined from VLT/MUSE

Journal of Geophysical Research: Planets American Geophysical Union 128:11 (2023) e2023JE007980

Authors:

Patrick Irwin, Jack Dobinson, Arjuna James, Wong Michael, Fletcher Leigh, Roman Michael, Teanby Nicholas, Orton Glenn, Perez-Hoyos Santiago, Sanchez-Lavega Agustin, Simon Amy, Morales-Juberias Raul, de Pater Imke

Abstract:

Spectral observations of Neptune made in 2019 with the MUSE instrument at the Very Large Telescope in Chile have been analysed to determine the spatial variation of aerosol scattering properties and methane abundance in Neptune’s atmosphere. The darkening of the South Polar Wave (SPW) at ∼ 60◦S, and dark spots such as the Voyager 2 Great Dark Spot is concluded to be due to a spectrally-dependent darkening (λ < 650nm) of particles in a deep aerosol layer at ∼ 5 bar and presumed to be composed of a mixture of ~ 650 nm, with bright zones latitudinally separated by ∼ 25◦ . This feature, similar to the spectral characteristics of a discrete deep bright spot DBS-2019 found in our data, is found to be consistent with a brightening of the particles in the same ∼5-bar aerosol layer at λ > 650 nm. We find the properties of an overlying methane/haze aerosol layer at ∼ 2 bar are, to first-order, invariant with latitude, while variations in the opacity of an upper tropospheric haze layer reproduce the observed reflectivity at methane-absorbing wavelengths, with higher abundances found at the equator and also in a narrow ‘zone’ at 80◦S. Finally, we find the mean abundance of methane below its condensation level to be 6-7% at the equator reducing to ∼3% south of ∼25◦S, although the absolute abundances are model dependent.

The radiometric environment for Mars limb observations by the Mars Sample Return Earth Return Orbiter

Advances in Space Research Elsevier 72:9 (2023) 4048-4063

Authors:

Marek Slipski, Armin Kleinböhl, Daniela Tirsch, Gerhard Kminek, Gregory Jonniaux, Klaus-Dieter Matz, Anni Määttänen, Austin Nicholas, Franck Montmessin, Soren N Madsen, Matthew Abrahamson, Manuel Sanchez-Gestido, Michael A Mischna, Neil Paul Murray, Michael J Wolff, Pierre Blanc-Paques, Fabrice Cipriani, Colin F Wilson, Dmitri Titov, Richard Zurek

A Tectonic Origin for the Largest Marsquake Observed by InSight

Geophysical Research Letters American Geophysical Union (AGU) 50:20 (2023)

Authors:

Benjamin Fernando, Ingrid J Daubar, Constantinos Charalambous, Peter M Grindrod, Alexander Stott, Abdullah Al Ateqi, Dimitra Atri, Savas Ceylan, John Clinton, Matthew Fillingim, Ernest Hauber, Jonathon R Hill, Taichi Kawamura, Jianjun Liu, Antoine Lucas, Ralph Lorenz, Lujendra Ojha, Clement Perrin, Sylvain Piqueux, Simon Stähler, Daniela Tirsch, Colin Wilson, Natalia Wójcicka, Domenico Giardini, Philippe Lognonné, W Bruce Banerdt

Latitudinal variations in methane abundance, aerosol opacity and aerosol scattering efficiency in Neptune's atmosphere determined from VLT/MUSE

(2023)

Authors:

Patrick GJ Irwin, Jack Dobinson, Arjuna James, Michael H Wong, Leigh N Fletcher, Michael T Roman, Nicholas A Teanby, Daniel Toledo, Glenn S Orton, Santiago Perez-Hoyos, Agustin Sanchez-Lavega, Amy Simon, Raul Morales-Juberias, Imke de Pater