Add to ORKGBrown Dwarf atmosphere are a chemically extremely rich, one example being the formation of clouds driven by the phase-non-equilibrium of the atmospheric gas. Cloud formation modelling is an integral part of any atmosphere simulation used to interpret spectral observations of ultra-cool objects and to determine fundamental parameters like log(g) and Teff. This proceeding to the workshop 'GAIA and the Unseen: The Brown Dwarf Question' first summarizes what a model atmosphere simulation is, and then advocates two ideas: A) The use of a multitude of model families to determine fundamental parameters with realistic confidence interval. B) To keep an eye on the unexpected, like for example, ionisation signatures resulting plasma processe
The large scale structure of a brown dwarf atmosphere is determined by an interplay of convection, r...
Brown dwarf atmospheres are largely convective. These convective gas flows collide and feed back a w...
We developed a simple, physical and self-consistent cloud model for brown dwarfs and young giant exo...
ChH highlights financial support of the European Community under the FP7 by an ERC starting grant 25...
Clouds seem like an every-day experience. But - do we know how clouds form on brown dwarfs and extra...
In the 25 years since the discovery of the first exoplanet and brown dwarf, our atmospheric models h...
International audienceThe study of brown dwarfs and giant exoplanets is rapidly evolving as ever-imp...
The study of brown dwarfs and giant exoplanets is rapidly evolving as ever-improving instrumentation...
Abstract Brown Dwarfs are the coolest class of stellar objects known to date. Our present perception...
Context. Brown dwarfs and exoplanets provide unique atmospheric regimes that hold information about ...
The optical and infrared colors of L and T dwarfs are sensitive to cloud sedimentation and chemical ...
Because the opacity of clouds in substellar mass object (SMO) atmospheres depends on the composition...
Brown dwarfs (BDs) are substellar mass objects with masses â¤80MJup, the hydrogenburning limit. Deut...
The properties of clouds is perhaps one of the most crucial factors for correctly interpreting the o...
Brown dwarf and giant planet atmospheric structure and composition has been studied both by forward ...
The large scale structure of a brown dwarf atmosphere is determined by an interplay of convection, r...
Brown dwarf atmospheres are largely convective. These convective gas flows collide and feed back a w...
We developed a simple, physical and self-consistent cloud model for brown dwarfs and young giant exo...
ChH highlights financial support of the European Community under the FP7 by an ERC starting grant 25...
Clouds seem like an every-day experience. But - do we know how clouds form on brown dwarfs and extra...
In the 25 years since the discovery of the first exoplanet and brown dwarf, our atmospheric models h...
International audienceThe study of brown dwarfs and giant exoplanets is rapidly evolving as ever-imp...
The study of brown dwarfs and giant exoplanets is rapidly evolving as ever-improving instrumentation...
Abstract Brown Dwarfs are the coolest class of stellar objects known to date. Our present perception...
Context. Brown dwarfs and exoplanets provide unique atmospheric regimes that hold information about ...
The optical and infrared colors of L and T dwarfs are sensitive to cloud sedimentation and chemical ...
Because the opacity of clouds in substellar mass object (SMO) atmospheres depends on the composition...
Brown dwarfs (BDs) are substellar mass objects with masses â¤80MJup, the hydrogenburning limit. Deut...
The properties of clouds is perhaps one of the most crucial factors for correctly interpreting the o...
Brown dwarf and giant planet atmospheric structure and composition has been studied both by forward ...
The large scale structure of a brown dwarf atmosphere is determined by an interplay of convection, r...
Brown dwarf atmospheres are largely convective. These convective gas flows collide and feed back a w...
We developed a simple, physical and self-consistent cloud model for brown dwarfs and young giant exo...