There is growing observational and theoretical evidence suggesting that atmospheric escape is a key driver of planetary evolution. Commonly, planetary evolution models employ simple analytic formulae (e.g. energy limited escape) that are often inaccurate, and more detailed physical models of atmospheric loss usually only give snapshots of an atmosphere’s structure and are difficult to use for evolutionary studies. To overcome this problem, we have upgraded and employed an existing upper atmosphere hydrodynamic code to produce a large grid of about 7000 models covering planets with masses 1–39 M⊕ with hydrogen-dominated atmospheres and orbiting late-type stars. The modelled planets have equilibrium temperatures ranging between 300 and 2000 K...
AbstractThe detections of atomic hydrogen, heavy atoms and ions surrounding the extrasolar giant pla...
Past studies addressing the thermal atmospheric escape of hydrogen from “hot Jupiters ” have been ba...
The K2-33 planetary system hosts one transiting ~5 R⊕ planet orbiting the young M-type host star. Th...
There is growing observational and theoretical evidence suggesting that atmospheric escape is a key ...
There is growing observational and theoretical evidence suggesting that atmospheric escape is a key ...
The NASA Kepler mission revealed the existence of a large variety of planets very different from wha...
Studies of planetary atmospheric composition, variability, and evolution require appropriate theoret...
Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the ...
Context. π Men c is the first planet to have been discovered by the Transiting Exoplanet Survey Sate...
This package contains a python tool allowing one to get a quick estimate of mass-loss rates from pla...
Aims. In this Letter, we calculate for the first time the full transonic hydrodynamic escape of an E...
The K2-33 planetary system hosts one transiting 5 R⊕ planet orbiting the young M-type host star. The...
Intense X-ray and ultraviolet stellar irradiation can heat and inflate the atmospheres of closely or...
Gas planets in close proximity to their host stars experience photoevaporative mass loss. The energy...
We investigate the efficiency of the atmospheric mass loss due to hydrodynamic blow-off over the lif...
AbstractThe detections of atomic hydrogen, heavy atoms and ions surrounding the extrasolar giant pla...
Past studies addressing the thermal atmospheric escape of hydrogen from “hot Jupiters ” have been ba...
The K2-33 planetary system hosts one transiting ~5 R⊕ planet orbiting the young M-type host star. Th...
There is growing observational and theoretical evidence suggesting that atmospheric escape is a key ...
There is growing observational and theoretical evidence suggesting that atmospheric escape is a key ...
The NASA Kepler mission revealed the existence of a large variety of planets very different from wha...
Studies of planetary atmospheric composition, variability, and evolution require appropriate theoret...
Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the ...
Context. π Men c is the first planet to have been discovered by the Transiting Exoplanet Survey Sate...
This package contains a python tool allowing one to get a quick estimate of mass-loss rates from pla...
Aims. In this Letter, we calculate for the first time the full transonic hydrodynamic escape of an E...
The K2-33 planetary system hosts one transiting 5 R⊕ planet orbiting the young M-type host star. The...
Intense X-ray and ultraviolet stellar irradiation can heat and inflate the atmospheres of closely or...
Gas planets in close proximity to their host stars experience photoevaporative mass loss. The energy...
We investigate the efficiency of the atmospheric mass loss due to hydrodynamic blow-off over the lif...
AbstractThe detections of atomic hydrogen, heavy atoms and ions surrounding the extrasolar giant pla...
Past studies addressing the thermal atmospheric escape of hydrogen from “hot Jupiters ” have been ba...
The K2-33 planetary system hosts one transiting ~5 R⊕ planet orbiting the young M-type host star. Th...