Simon Calcutt

A Self-Levelling Nano-G Silicon Seismometer

Institute of Electrical and Electronics Engineers (IEEE) (2014) 1599-1602

Authors:

WT Pike, AK Delahunty, A Mukherjee, Guangbin Dou, Huafeng Liu, S Calcutt, IM Standley

Differentiability and retrievability of CO2 and H2O clouds on Mars from MRO/MCS measurements: A radiative-transfer study

Planetary and Space Science Elsevier 97 (2014) 65-84

Authors:

J Hurley, NA Teanby, PGJ Irwin, SB Calcutt, E Sefton-Nash

The DREAMS experiment on the ExoMars 2016 mission for the study of Martian environment during the dust storm season

Institute of Electrical and Electronics Engineers (IEEE) (2014) 167-173

Authors:

C Bettanini, F Esnosito, S Debei, C Molfese, I Arruezo Rodríguez, G Colombatti, A-M Harri, F Montmessin, C Wilson, A Aboudan, S Abbaki, V Apestigue, G Bellucci, J-J Berthelier, JR Brucato, SB Calcutt, F Cortecchia, G Di Achille, F Ferri, F Forget, GP Guizzo, E Friso, M Genzer, P Gilbert, H Haukka, JJ Jiménez, S Jiménez, J-L Josset, O Karatekin, G Landis, R Lorenz, J Martinez, L Marty, V Mennella, D Möhlmann, D Moirin, R Molinaro, E Palomba, M Patel1, J-P Pommereau, CI Popa, S Rafkin, P Rannou, NO Renno, P Schipani, W Schmidt, S Silvestro, F Simoes, A Spiga, F Valero, L Vázquez, F Vivat, O Witasse, R Mugnuolo, S Pirrotta, E Marchetti

Line-by-line analysis of Neptune's near-IR spectrum observed with Gemini/NIFS and VLT/CRIRES

Icarus 227 (2014) 37-48

Authors:

PGJ Irwin, E Lellouch, C de Bergh, R Courtin, B Bézard, LN Fletcher, GS Orton, NA Teanby, SB Calcutt, D Tice, J Hurley, GR Davis

Abstract:

New line data describing the absorption of CH4 and CH3D from 1.26 to 1.71μm (WKMC-80K, Campargue, A., Wang, L., Mondelain, D., Kassi, S., Bézard, B., Lellouch, E., Coustenis, A., de Bergh, C., Hirtzig, M., Drossart, P. [2012]. Icarus 219, 110-128) have been applied to the analysis of Gemini-N/NIFS observations of Neptune made in 2009 and VLT/CRIRES observations made in 2010. The new line data are found to greatly improve the fit to the observed spectra and present a considerable advance over previous methane datasets. The improved fits lead to an empirically derived wavelength-dependent correction to the scattering properties of the main observable cloud deck at 2-3bars that is very similar to the correction determined for Uranus' lower cloud using the same line dataset by Irwin et al. (Irwin, P.G.J., de Bergh, C., Courtin, R., Bézard, B., Teanby, N.A., Davis, G.R., Fletcher, L.N., Orton, G.S., Calcutt, S.B., Tice, D., Hurley, J. [2012]. Icarus 220, 369-382). By varying the abundance of CH3D in our simulations, analysis of the Gemini/NIFS observations leads to a new determination of the CH3D/CH4 ratio for Neptune of 3.0-0.9+1.0×10-4, which is smaller than previous determinations, but is identical (to within error) with the CH3D/CH4 ratio of 2.9-0.5+0.9×10-4 derived by a similar analysis of Gemini/NIFS observations of Uranus made in the same year. Thus it appears that the atmospheres of Uranus and Neptune have an almost identical D/H ratio, which suggests that the icy planetisimals forming these planets came from the same source reservoir, or a reservoir that was well-mixed at the locations of ice giant formation, assuming complete mixing between the atmosphere and interior of both these planets. VLT/CRIRES observations of Neptune have also been analysed with the WKMC-80K methane line database, yielding very good fits, with little evidence for missing absorption features. The CRIRES spectra indicate that the mole fraction of CO at the 2-3bar level must be substantially less than its estimated stratospheric value of 1×10-6, which suggests that the predominant source of CO in Neptune's atmosphere is external, through the influx of micrometeorites and comets, although these data cannot rule out an additional internal source. © 2013 Elsevier Inc.

A SILICON MICROSEISMOMETER FOR MARS

Institute of Electrical and Electronics Engineers (IEEE) (2013) 622-625

Authors:

WT Pike, IM Standley, S Calcutt