Solar system

Stratospheric HCN and Evolution of a Mixing Barrier in Titan’s Equatorial Region from Low-Resolution Cassini/CIRS Spectra

Copernicus Publications (2022)

Authors:

Lucy Wright, Nicholas A Teanby, Patrick GJ Irwin, Conor A Nixon, Dann M Mitchell

Uranus and Neptune in the Mid-Infrared: Recent Findings from VLT-VISIR and Future Opportunities with JWST-MIRI

Copernicus Publications (2022)

Authors:

Michael T Roman, Leigh N Fletcher, Glenn S Orton, Naomi Rowe-Gurney, Julianne Moses, Thomas K Greathouse, Patrick GJ Irwin, Yasumasa Kasaba, Takuya Fujiyoshi, Heidi B Hammel, Imke de Pater, Arrate Antunano, James Sinclair, Henrik Melin, Deborah Bardet

Uranus and Neptune's stratospheric water abundance and external flux from Herschel-HIFI

Copernicus Publications (2022)

Authors:

Nicholas Teanby, Patrick Irwin, Conor Nixon, Martin Cordiner, Lucy Wright

Ground calibration of the Ariel space telescope: optical ground support equipment design and description

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics 12180 (2022) 1218049-1218049-11

Authors:

Neil E Bowles, Manuel Abreu, Tim A van Kempen, Matthijs Krijger, Robert Spry, Rory Evans, Robert A Watkins, Cédric Pereira, E Pascale, Paul Eccleston, Chris Pearson, Lucile Desjonquères, Georgia Bishop, Andrew Caldwell, Andrea Moneti, Mauro Focardi, Subhajit Sarkar, Giuseppe Malaguti, Ioannis Argyriou, Keith Nowicki, Alexandre Cabral, Giovanna Tinetti

Dione's thermal inertia and bolometric Bond albedo derived from Cassini/CIRS observations of solar eclipse ingress

The Planetary Science Journal IOP Publishing 3:8 (2022) 192

Authors:

Carly JA Howett, John R Spencer

Abstract:

On 2010 May 18 Cassini's Composite Infrared Spectrometer (CIRS) observed Dione's leading hemisphere as its surface went into solar eclipse. Surface temperatures derived from each of CIRS' focal plane 3 (FP3, 600−1100 cm⁻¹) show a rapid decrease in Dione's surface temperature upon eclipse ingress. This change was compared to the model surface emission to constrain bolometric Bond albedo and thermal inertia. Seven FP3 detectors were able to constrain the observed surface's thermophysical properties. The bolometric Bond albedo derived from these detectors are consistent with one another (0.54 ± 0.05 to 0.62 ± 0.03) and that of diurnal studies (e.g., 0.49 ± 0.11, Howett et al. 2014). This indicates that Dione's albedo is uniform to within the uncertainties across the observed region of its leading hemisphere. The derived thermal inertias are consistent across detectors, 9 ± 4 J m⁻² K⁻¹ s^−1/2 (MKS) to 16 ± 8 MKS, and with previous diurnal studies (e.g., 8 to 12 MKS, Howett et al. 2014). The skin depth probed by the eclipse thermal wave is ∼0.6–1 mm, which is much shallower than that probed by diurnal cycles (∼50 mm). Thus, the agreement in thermal inertia between the eclipse and diurnal studies indicates that Dione's subsurface structure is uniform from submillimeter to subcentimeter depths. This is different from the Jovian system, where eclipse-derived thermal inertias are much lower than those derived from diurnal studies. The cause of this difference is not known, but one possibility is that the E-ring grains that bombard Dione's leading hemisphere overturn it, causing uniformity to centimeter depths.