Add to ORKGAbstract. Here we show preliminary calculations of the cooling and contraction of a 2 MJ planet. These calculations, which are being extended to 1–10MJ, differ from other published “cooling tracks ” in that they include a core accretion-gas capture formation scenario, the leading theory for the formation of gas giant planets. We find that the initial post-accretionary intrinsic luminosity of the planet is ∼3 times less than previously published models which use arbitrary initial conditions. These differences last a few tens of millions of years. Young giant planets are intrinsically fainter than has been previously appreciated. We also discuss how uncertainties in atmospheric chemistry and the duration of the formation time of giant planets...
We examine the spectra and infrared colors of the cool, methane-dominated atmospheres at TeA 1400 K...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...
Here we show preliminary calculations of the cooling and contraction of a 2 MJ planet. These calcula...
Traditional thermal evolution models of giant planets employ arbitrary initial conditions selected m...
Traditional thermal evolution models of giant planets employ arbitrary initial conditions selected m...
Context. The intrinsic luminosity of young Jupiters is of high interest for planet formation theory....
Context. Future instruments like the Near Infrared Camera (NIRCam) and the Mid Infrared Instrument (...
Context. The intrinsic luminosity of young Jupiters is of high interest for planet formati...
Aims. We examine the uncertainties in current planetary models and quantify their impact on the plan...
Context. Future instruments like the Near Infrared Camera (NIRCam) and the Mid Infrared Instrument (...
Abstract. We present models of giant planet formation, taking into account migration and disk viscou...
Abstract We discuss our current understanding of the interior structure and thermal evo-lution of gi...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Context. A first characterization of extrasolar planets by the observational determination of the ra...
We examine the spectra and infrared colors of the cool, methane-dominated atmospheres at TeA 1400 K...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...
Here we show preliminary calculations of the cooling and contraction of a 2 MJ planet. These calcula...
Traditional thermal evolution models of giant planets employ arbitrary initial conditions selected m...
Traditional thermal evolution models of giant planets employ arbitrary initial conditions selected m...
Context. The intrinsic luminosity of young Jupiters is of high interest for planet formation theory....
Context. Future instruments like the Near Infrared Camera (NIRCam) and the Mid Infrared Instrument (...
Context. The intrinsic luminosity of young Jupiters is of high interest for planet formati...
Aims. We examine the uncertainties in current planetary models and quantify their impact on the plan...
Context. Future instruments like the Near Infrared Camera (NIRCam) and the Mid Infrared Instrument (...
Abstract. We present models of giant planet formation, taking into account migration and disk viscou...
Abstract We discuss our current understanding of the interior structure and thermal evo-lution of gi...
Context. According to the sequential accretion model (or core-nucleated accretion model), giant plan...
Context. A first characterization of extrasolar planets by the observational determination of the ra...
We examine the spectra and infrared colors of the cool, methane-dominated atmospheres at TeA 1400 K...
This project investigates the origin of giant planets, both in the Solar System and around other sta...
We know now that discs of gas and dust, so-called protoplanetary discs, form planets as side-product...