Exoplanet atmospheres

Seasonal variations of temperature, acetylene and ethane in Saturn's atmosphere from 2005 to 2010, as observed by Cassini-CIRS

Icarus 225:1 (2013) 257-271

Authors:

JA Sinclair, PGJ Irwin, LN Fletcher, JI Moses, TK Greathouse, AJ Friedson, B Hesman, J Hurley, C Merlet

Abstract:

Acetylene (C2H2) and ethane (C2H6) are by-products of complex photochemistry in the stratosphere of Saturn. Both hydrocarbons are important to the thermal balance of Saturn's stratosphere and serve as tracers of vertical motion in the lower stratosphere. Earlier studies of Saturn's hydrocarbons using Cassini-CIRS observations have provided only a snapshot of their behaviour. Following the vernal equinox in August 2009, Saturn's northern and southern hemispheres have entered spring and autumn, respectively, however the response of Saturn's hydrocarbons to this seasonal shift remains to be determined. In this paper, we investigate how the thermal structure and concentrations of acetylene and ethane have evolved with the changing season on Saturn. We retrieve the vertical temperature profiles and acetylene and ethane volume mixing ratios from δν̃=15.5cm-1 Cassini-CIRS observations. In comparing 2005 (solar longitude, Ls~308°), 2009 (Ls~3°) and 2010 (Ls~15°) results, we observe the disappearance of Saturn's warm southern polar hood with cooling of up to 17.1K±0.8K at 1.1mbar at high-southern latitudes. Comparison of the derived temperature trend in this region with a radiative climate model (Section 4 of Fletcher et al., 2010 and Greathouse et al. (2013, in preparation)) indicates that this cooling is radiative although dynamical changes in this region cannot be ruled out. We observe a21±12% enrichment of acetylene and a 29±11% enrichment of ethane at 25°N from 2005 to 2009, suggesting downwelling at this latitude. At 15°S, both acetylene and ethane exhibit a decrease in concentration of 6±11% and 17±9% from 2005 to 2010, respectively, which suggests upwelling at this latitude (though a statistically significant change is only exhibited by ethane). These implied vertical motions at 15°S and 25°N are consistent with a recently-developed global circulation model of Saturn's tropopause and stratosphere(Friedson and Moses, 2012), which predicts this pattern of upwelling and downwelling as a result of a seasonally-reversing Hadley circulation. Ethane exhibits a general enrichment at mid-northern latitudes from 2005 to 2009. As the northern hemisphere approaches summer solstice in 2017, this feature might indicate an onset of a meridional enrichment of ethane, as has been observed in the southern hemisphere during/after southern summer solstice. © 2013 Elsevier Inc.

Constraining the atmosphere of GJ 1214b using an optimal estimation technique

(2013)

Authors:

Joanna K Barstow, Suzanne Aigrain, Patrick GJ Irwin, Leigh N Fletcher, Jae-Min Lee

Robust elements of Snowball Earth atmospheric circulation and oases for life

Journal of Geophysical Research: Atmospheres American Geophysical Union (AGU) 118:12 (2013) 6017-6027

Authors:

Dorian S Abbot, Aiko Voigt, Dawei Li, Guillaume Le Hir, Raymond T Pierrehumbert, Mark Branson, David Pollard, Daniel DB Koll

Atmospheric composition, irreversible climate change, and mitigation policy.

Chapter in Climate Science for Serving Society Research, Modeling and Prediction Priorities, Springer Science & Business Media (2013) 15

Authors:

S Solomon, RT Pierrehumbert, HD matthews, JS Daniel, P Friedlingstein

Abstract:

This volume offers a comprehensive survey and a close analysis of efforts to develop actionable climate information in support of vital decisions for climate adaptation, risk management and policy.

The Gemini NICI Planet-Finding Campaign: The Frequency of Giant Planets around Young B and A Stars

ArXiv 1306.1233 (2013)

Authors:

Eric L Nielsen, Michael C Liu, Zahed Wahhaj, Beth A Biller, Thomas L Hayward, Laird M Close, Jared R Males, Andrew J Skemer, Mark Chun, Christ Ftaclas, Silvia HP Alencar, Pawel Artymowicz, Alan Boss, Fraser Clarke, Elisabete de Gouveia Dal Pino, Jane Gregorio-Hetem, Markus Hartung, Shigeru Ida, Marc Kuchner, Douglas NC Lin, I Neill Reid, Evgenya L Shkolnik, Matthias Tecza, Niranjan Thatte, Douglas W Toomey

Abstract:

We have carried out high contrast imaging of 70 young, nearby B and A stars to search for brown dwarf and planetary companions as part of the Gemini NICI Planet-Finding Campaign. Our survey represents the largest, deepest survey for planets around high-mass stars (~1.5-2.5 M_sun) conducted to date and includes the planet hosts beta Pic and Fomalhaut. We obtained follow-up astrometry of all candidate companions within 400 AU projected separation for stars in uncrowded fields and identified new low-mass companions to HD 1160 and HIP 79797. We have found that the previously known young brown dwarf companion to HIP 79797 is itself a tight (3 AU) binary, composed of brown dwarfs with masses 58 (+21, -20) M_Jup and 55 (+20, -19) M_Jup, making this system one of the rare substellar binaries in orbit around a star. Considering the contrast limits of our NICI data and the fact that we did not detect any planets, we use high-fidelity Monte Carlo simulations to show that fewer than 20% of 2 M_sun stars can have giant planets greater than 4 M_Jup between 59 and 460 AU at 95% confidence, and fewer than 10% of these stars can have a planet more massive than 10 M_Jup between 38 and 650 AU. Overall, we find that large-separation giant planets are not common around B and A stars: fewer than 10% of B and A stars can have an analog to the HR 8799 b (7 M_Jup, 68 AU) planet at 95% confidence. We also describe a new Bayesian technique for determining the ages of field B and A stars from photometry and theoretical isochrones. Our method produces more plausible ages for high-mass stars than previous age-dating techniques, which tend to underestimate stellar ages and their uncertainties.