Gas planets in close proximity to their host stars experience photoevaporative mass loss. The energy-limited escape concept is generally used to derive estimates for the planetary mass-loss rates. Our photoionization hydrodynamics simulations of the thermospheres of hot gas planets show that the energy-limited escape concept is valid only for planets with a gravitational potential lower than log 10(−ΦG)< 13.11 erg g-1 because in these planets the radiative energy input is efficiently used to drive the planetary wind. Massive and compact planets with log 10(−ΦG) ≳ 13.6 erg g-1 exhibit more tightly bound atmospheres in which the complete radiative energy input is re-emitted through hydrogen Lyα and free-free emission. These planets therefore ...
Context. The heating efficiency ηhν is defined as the ratio of the net local gas-heating rate to the...
Exoplanets at small orbital distances from their host stars are submitted to intense level...
We investigate the efficiency of the atmospheric mass loss due to hydrodynamic blow-off over the lif...
Gas planets in close proximity to their host stars experience photoevaporative mass loss. The energy...
Making use of the publicly available 1D photoionization hydrodynamics code ATES we set out to invest...
Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the ...
Context. X-rays and extreme ultraviolet radiation impacting a gas produce a variety of effects that,...
Past studies addressing the thermal atmospheric escape of hydrogen from “hot Jupiters ” have been ba...
We present calculations for the evolution and surviving mass of highly-irradiated extrasolar giant p...
We explore atmospheric escape from close-in exoplanets with the highest mass-loss rates. First, we l...
Context. Observations by the Kepler satellite have revealed a gap between larger sub-Neptunes and sm...
Making use of the publicly available 1D photoionization hydrodynamics code ATES we set out to invest...
Stimulated by the discovery of a number of close-in low-density planets, we generalise the Jeans esc...
Intense X-ray and ultraviolet stellar irradiation can heat and inflate the atmospheres of closely or...
A simple, idealized model for the rapid escape of a hydrogen thermosphere provides some quantitative...
Context. The heating efficiency ηhν is defined as the ratio of the net local gas-heating rate to the...
Exoplanets at small orbital distances from their host stars are submitted to intense level...
We investigate the efficiency of the atmospheric mass loss due to hydrodynamic blow-off over the lif...
Gas planets in close proximity to their host stars experience photoevaporative mass loss. The energy...
Making use of the publicly available 1D photoionization hydrodynamics code ATES we set out to invest...
Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the ...
Context. X-rays and extreme ultraviolet radiation impacting a gas produce a variety of effects that,...
Past studies addressing the thermal atmospheric escape of hydrogen from “hot Jupiters ” have been ba...
We present calculations for the evolution and surviving mass of highly-irradiated extrasolar giant p...
We explore atmospheric escape from close-in exoplanets with the highest mass-loss rates. First, we l...
Context. Observations by the Kepler satellite have revealed a gap between larger sub-Neptunes and sm...
Making use of the publicly available 1D photoionization hydrodynamics code ATES we set out to invest...
Stimulated by the discovery of a number of close-in low-density planets, we generalise the Jeans esc...
Intense X-ray and ultraviolet stellar irradiation can heat and inflate the atmospheres of closely or...
A simple, idealized model for the rapid escape of a hydrogen thermosphere provides some quantitative...
Context. The heating efficiency ηhν is defined as the ratio of the net local gas-heating rate to the...
Exoplanets at small orbital distances from their host stars are submitted to intense level...
We investigate the efficiency of the atmospheric mass loss due to hydrodynamic blow-off over the lif...