Exoplanet atmospheres

System design and analysis of the exo-planet imaging camera and spectrograph (EPICS) for the European ELT

Proceedings of SPIE - The International Society for Optical Engineering 7014 (2008)

Authors:

C Vérinaud, V Korkiakoskia, N Yaitskova, P Martinez, EK Markus, Jean-Luc Beuzit, Lyu Abe, Pierr, Baudozd, Anthony Boccalettid, Kjetil Dohlene, GG Raffaele, Dino Mesaf, Florian Kerberb, Hans Martin Schmidg, Lars Venema, Graeme Slater, Matthias Tecza, AT Niranjan

Abstract:

One of the main science objectives of the European ELT is the direct imaging of extrasolar planets. The large aperture of the telescope has the potential to significantly enlarge the discovery space towards older gas giant exo-planets seen in reflected light. In this paper, we give an overview of the EPICS system design strategy during the phase A study. In order to tackle the critical limitations to high contrast, extensive end-to-end simulations will be developed since the start to test different scenarios and guide the overall design. Keywords: Extremely Large Telescope, high contrast imaging, extrasolar planets, instrumentation, adaptive optics.

Intense polar temperature inversion in the middle atmosphere on Mars

Nature Geoscience 1:11 (2008) 745-749

Authors:

DJ McCleese, JT Schofield, FW Taylor, WA Abdou, O Aharonson, D Banfield, SB Calcutt, NG Heavens, PGJ Irwin, DM Kass, A Kleinböhl, WG Lawson, CB Leovy, SR Lewis, DA Paige, PL Read, MI Richardson, N Teanby, RW Zurek

Abstract:

Current understanding of weather, climate and global atmospheric circulation on Mars is incomplete, in particular at altitudes above about 30 km. General circulation models for Mars are similar to those developed for weather and climate forecasting on Earth and require more martian observations to allow testing and model improvements. However, the available measurements of martian atmospheric temperatures, winds, water vapour and airborne dust are generally restricted to the region close to the surface and lack the vertical resolution and global coverage that is necessary to shed light on the dynamics of Mars middle atmosphere at altitudes between 30 and 80 km (ref.7). Here we report high-resolution observations from the Mars Climate Sounder instrument on the Mars Reconnaissance Orbiter. These observations show an intense warming of the middle atmosphere over the south polar region in winter that is at least 10-20 K warmer than predicted by current model simulations. To explain this finding, we suggest that the atmospheric downwelling circulation over the pole, which is part of the equator-to-pole Hadley circulation, may be as much as 50 more vigorous than expected, with consequences for the cycles of water, dust and CO"2 that regulate the present-day climate on Mars. © 2008 Macmillan Publishers Limited.

Band parameters for self-broadened ammonia gas in the range 0.74 to 5.24 μm to support measurements of the atmosphere of the planet Jupiter

Icarus Elsevier 196:2 (2008) 612-624

Authors:

Neil Bowles, Simon Calcutt, Pat Irwin, Jon Temple

Axisymmetric, nearly inviscid circulations in non‐condensing radiative‐convective atmospheres

Quarterly Journal of the Royal Meteorological Society Wiley 134:634 (2008) 1269-1285

Authors:

Rodrigo Caballero, Raymond T Pierrehumbert, Jonathan L Mitchell

The ¹²C/¹³C isotopic ratio in Titan hydrocarbons from Cassini/CIRS infrared spectra

Icarus 195:2 (2008) 778-791

Authors:

CA Nixon, RK Achterberg, S Vinatier, B Bézard, A Coustenis, PGJ Irwin, NA Teanby, R de Kok, PN Romani, DE Jennings, GL Bjoraker, FM Flasar

Abstract:

We have analyzed infrared spectra of Titan recorded by the Cassini Composite Infrared Spectrometer (CIRS) to measure the isotopic ratio 12C/13C in each of three chemical species in Titan's stratosphere: CH4, C2H2 and C2H6. This is the first measurement of 12C/13C in any C2 molecule on Titan, and the first measurement of 12CH4/13CH4 (non-deuterated) on Titan by remote sensing. Our spectra cover five widely-spaced latitudes, 65° S to 71° N and we have searched for both latitude variability of 12C/13C within a given species, and also for differences between the 12C/13C in the three gases. For CH4 alone, we find 12C / 13C = 76.6 ± 2.7 (1-σ), essentially in agreement with the 12CH4/13CH4 measured by the Huygens Gas Chromatograph/Mass Spectrometer instrument (GCMS) [Niemann, H.B., and 17 colleagues, 2005. Nature 438, 779-784]: 82.3 ± 1.0, and also with measured values in H13CN and 13CH3D by CIRS at lower precision [Bézard, B., Nixon, C., Kleiner, I., Jennings, D., 2007. Icarus 191, 397-400; Vinatier, S., Bézard, B., Nixon, C., 2007. Icarus 191, 712-721]. For the C2 species, we find 12C / 13C = 84.8 ± 3.2 in C2H2 and 89.8 ± 7.3 in C2H6, a possible trend of increasingly value with molecular mass, although these values are both compatible with the Huygens GCMS value to within error bars. There are no convincing trends in latitude. Combining all fifteen measurements, we obtain a value of 12C / 13C = 80.8 ± 2.0, also compatible with GCMS. Therefore, the evidence is mounting that 12C/13C is some 8% lower on Titan than on the Earth (88.9, inorganic standard), and lower than typical for the outer planets (88 ± 7 [Sada, P.V., McCabe, G.H., Bjoraker, G.L., Jennings, D.E., Reuter, D.C., 1996. Astrophys. J. 472, 903-907]). There is no current model for this enrichment, and we discuss several mechanisms that may be at work. © 2008 Elsevier Inc. All rights reserved.