Transiting planets with the CoRoT space mission
Lead Research Organisation:
UNIVERSITY OF EXETER
Department Name: Physics
Abstract
In this Rolling Grant application, we describe an interdisciplinary programme of observational and theoretical research in extrasolar planets, to be conducted at the University of Exeter, through a new collaboration between the Astrophysics Group in the School of Physics and the Centre for Geophysical and Astrophysical Fluid Dynamics (CGAFD) in the School of Engineering, Computing and Mathematics (SECaM). The research programme combines state-of-the-art observations and theoretical calculations to detect, determine the properties of, and model the formation and evolution of extrasolar planets. We will perform three-dimensional self-gravitating radiation hydrodynamical simulations of gas accretion by a protoplanet core to form giant planets to produce more accurate models of young gas giant planets. We will directly image gas giant planets around young nearby stars using adaptive optics on the VLT and the Gemini Planet Imager and use these observations to test the models. We will undertake space-based observations of transiting planets using HST and Spitzer to understand the chemistry and dynamics of the atmospheres of giant planets that are very close to their stars and model these atmospheres using convective three-dimensional simulations. Finally, we will analyse the data from CoRoT, the first space-based transiting planet search mission, to detect and characterise planets of Neptune-mass and below and the systems they are part of, as well as search for light reflected by giant planets.
Organisations
People |
ORCID iD |
Suzanne Aigrain (Principal Investigator) |
Publications
Evans T
(2015)
A uniform analysis of HD 209458b Spitzer/IRAC light curves with Gaussian process models
in Monthly Notices of the Royal Astronomical Society
Evans T
(2013)
THE DEEP BLUE COLOR OF HD 189733b: ALBEDO MEASUREMENTS WITH HUBBLE SPACE TELESCOPE /SPACE TELESCOPE IMAGING SPECTROGRAPH AT VISIBLE WAVELENGTHS
in The Astrophysical Journal
Fischer Patrick D.
(2016)
HST hot-Jupiter transmission spectral survey: Clear skies for cool Saturn WASP-39b
in ArXiv e-prints
Fletcher Leigh N.
(2014)
Exploring the Diversity of Jupiter-Class Planets (Discussion Meeting Contribution)
in arXiv e-prints
Fletcher LN
(2014)
Exploring the diversity of Jupiter-class planets.
in Philosophical transactions. Series A, Mathematical, physical, and engineering sciences
Fressin F
(2012)
SPITZER INFRARED OBSERVATIONS AND INDEPENDENT VALIDATION OF THE TRANSITING SUPER-EARTH CoRoT-7 b
in The Astrophysical Journal
Fridlund M
(2010)
Transiting exoplanets from the CoRoT space mission IX. CoRoT-6b: a transiting "hot Jupiter" planet in an 8.9d orbit around a low-metallicity star
in Astronomy and Astrophysics
Gandolfi D
(2010)
Transiting exoplanets from the CoRoT space mission XIV. CoRoT-11b: a transiting massive "hot-Jupiter" in a prograde orbit around a rapidly rotating F-type star?
in Astronomy & Astrophysics
Gaulme P
(2010)
Possible detection of phase changes from the non-transiting planet HD 46375b by CoRoT
in Astronomy and Astrophysics
Gibson N
(2013)
The optical transmission spectrum of the hot Jupiter HAT-P-32b: clouds explain the absence of broad spectral features?
in Monthly Notices of the Royal Astronomical Society
Description | This grant funded me and a PDRA for three years to work on the detection and characterisation of transiting planets, mainly using data from the CoRoT space mission, the Hubble Space Telescope and the Gemini telescopes. One of the main outcomes was the development of novel methods to model instrumental systematic effects and / or stellar variability using a technique known as Gaussian Process regression, which we introduced to the exoplanet community, and where it is now becoming widely used. |
Exploitation Route | The novel light curve analysis methods we developed are becoming widely used in the community. This work also contributed to establishing the prevalence of clouds in the atmospheres of numerous hot Jupiter planets, which is prompting renewed interest in modelling and understanding clouds in hot Jupiters and brown dwarfs. |
Sectors | Digital/Communication/Information Technologies (including Software) Education |
Description | The main impact of this research beyond its immediate subject matter is educational: we were the first to apply Gaussian Process regression to exoplanet time-series data, and this has had a significant impact in the way in which researchers and students now approach the analysis of such datasets, including in other areas of astronomy that involve time-series or correlated datasets (e.g pulsar science and CMB cosmology) |
First Year Of Impact | 2012 |
Sector | Digital/Communication/Information Technologies (including Software),Education |