Planetary atmosphere observation analysis

The origin of Titan's external oxygen: further constraints from ALMA upper limits on CS and CH2NH

Astronomical Journal American Astronomical Society 155:6 (2018) 251

Authors:

N Teanby, M Cordiner, C Nixon, Patrick Irwin, S Horst, M Sylvestre, J Serigano, AE Thelen, AMS Richards, SB Charnley

Abstract:

Titan's atmospheric inventory of oxygen compounds (H2O, CO2, CO) are thought to result from photochemistry acting on externally supplied oxygen species (O+, OH, H2O). These species potentially originate from two main sources: (1) cryogenic plumes from the active moon Enceladus and (2) micrometeoroid ablation. Enceladus is already suspected to be the major O+ source, which is required for CO creation. However, photochemical models also require H2O and OH influx to reproduce observed quantities of CO2 and H2O. Here, we exploit sulphur as a tracer to investigate the oxygen source because it has very different relative abundances in micrometeorites (S/O ~ 10−2) and Enceladus' plumes (S/O ~ 10−5). Photochemical models predict most sulphur is converted to CS in the upper atmosphere, so we use Atacama Large Millimeter/submillimeter Array (ALMA) observations at ~340 GHz to search for CS emission. We determined stringent CS 3σ stratospheric upper limits of 0.0074 ppb (uniform above 100 km) and 0.0256 ppb (uniform above 200 km). These upper limits are not quite stringent enough to distinguish between Enceladus and micrometeorite sources at the 3σ level and a contribution from micrometeorites cannot be ruled out, especially if external flux is toward the lower end of current estimates. Only the high-flux micrometeorite source model of Hickson et al. can be rejected at 3σ. We determined a 3σ stratospheric upper limit for CH2NH of 0.35 ppb, which suggests cosmic rays may have a smaller influence in the lower stratosphere than predicted by some photochemical models. Disk-averaged C3H4 and C2H5CN profiles were determined and are consistent with previous ALMA and Cassini/CIRS measurements.

Assessing the long-term variability of acetylene and ethane in the stratosphere of Jupiter

ICARUS 305 (2018) 301-313

Authors:

H Melin, LN Fletcher, PT Donnelly, TK Greathouse, JH Lacy, GS Orton, RS Giles, JA Sinclair, PGJ Irwin

The Transiting Exoplanet Community Early Release Science Program for JWST

(2018)

Authors:

Jacob L Bean, Kevin B Stevenson, Natalie M Batalha, Zachory Berta-Thompson, Laura Kreidberg, Nicolas Crouzet, Björn Benneke, Michael R Line, David K Sing, Hannah R Wakeford, Heather A Knutson, Eliza M-R Kempton, Jean-Michel Désert, Ian Crossfield, Natasha E Batalha, Julien de Wit, Vivien Parmentier, Joseph Harrington, Julianne I Moses, Mercedes Lopez-Morales, Munazza K Alam, Jasmina Blecic, Giovanni Bruno, Aarynn L Carter, John W Chapman, Leen Decin, Diana Dragomir, Thomas M Evans, Jonathan J Fortney, Jonathan D Fraine, Peter Gao, Antonio García Muñoz, Neale P Gibson, Jayesh M Goyal, Kevin Heng, Renyu Hu, Sarah Kendrew, Brian M Kilpatrick, Jessica Krick, Pierre-Olivier Lagage, Monika Lendl, Tom Louden, Nikku Madhusudhan, Avi M Mandell, Megan Mansfield, Erin M May, Giuseppe Morello, Caroline V Morley, Nikolay Nikolov, Seth Redfield, Jessica E Roberts, Everett Schlawin, Jessica J Spake, Kamen O Todorov, Angelos Tsiaras, Olivia Venot, William C Waalkes, Peter J Wheatley, Robert T Zellem, Daniel Angerhausen, David Barrado, Ludmila Carone, Sarah L Casewell, Patricio E Cubillos, Mario Damiano, Miguel de Val-Borro, Benjamin Drummond, Billy Edwards, Michael Endl, Nestor Espinoza, Kevin France, John E Gizis, Thomas P Greene, Thomas K Henning, Yucian Hong, James G Ingalls, Nicolas Iro, Patrick GJ Irwin, Tiffany Kataria, Fred Lahuis, Jérémy Leconte, Jorge Lillo-Box, Stefan Lines, Joshua D Lothringer, Luigi Mancini, Franck Marchis, Nathan Mayne, Enric Palle, Emily Rauscher, Gaël Roudier, Evgenya L Shkolnik, John Southworth, Mark R Swain, Jake Taylor, Johanna Teske, Giovanna Tinetti, Pascal Tremblin, Gregory S Tucker, Roy van Boekel, Ingo P Waldmann, Ian C Weaver, Tiziano Zingales

The proposed Caroline ESA M3 mission to a Main Belt Comet

Advances in Space Research Elsevier 62:8 (2018) 1921-1946

Authors:

GH Jones, J Agarwal, Neil Bowles, M Burchell, AJ Coates, A Fitzsimmons, A Graps, HH Hsieh, CM Lisse, SC Lowry, A Masters, C Snodgrass, C Tubiana

Abstract:

We describe Caroline, a mission proposal submitted to the European Space Agency in 2010 in response to the Cosmic Visions M3 call for medium-sized missions. Caroline would have travelled to a Main Belt Comet (MBC), characterizing the object during a flyby, and capturing dust from its tenuous coma for return to Earth. MBCs are suspected to be transition objects straddling the traditional boundary between volatile–poor rocky asteroids and volatile–rich comets. The weak cometary activity exhibited by these objects indicates the presence of water ice, and may represent the primary type of object that delivered water to the early Earth. The Caroline mission would have employed aerogel as a medium for the capture of dust grains, as successfully used by the NASA Stardust mission to Comet 81P/Wild 2. We describe the proposed mission design, primary elements of the spacecraft, and provide an overview of the science instruments and their measurement goals. Caroline was ultimately not selected by the European Space Agency during the M3 call; we briefly reflect on the pros and cons of the mission as proposed, and how current and future mission MBC mission proposals such as Castalia could best be approached.

Investigations of the Mars Upper Atmosphere with ExoMars Trace Gas Orbiter

SPACE SCIENCE REVIEWS 214:1 (2018) UNSP 29

Authors:

MA Lopez-Valverde, J-C Gerard, F Gonzalez-Galindo, A-C Vandaele, I Thomas, O Korablev, N Ignatiev, A Fedorova, F Montmessin, A Maattanen, S Guilbon, F Lefevre, MR Patel, S Jimenez-Monferrer, M Garcia-Comas, A Cardesin, CF Wilson, RT Clancy, A Kleinboehl, DJ McCleese, DM Kass, NM Schneider, MS Chaffin, JJ Lopez-Moreno, J Rodriguez