The K2-33 planetary system hosts one transiting 5 R⊕ planet orbiting the young M-type host star. The planet's mass is still unknown, with an estimated upper limit of 5.4 MJ. The extreme youth of the system (<20 Myr) gives the unprecedented opportunity to study the earliest phases of planetary evolution, at a stage when the planet is exposed to an extremely high level of high-energy radiation emitted by the host star. We perform a series of 1D hydrodynamic simulations of the planet's upper atmosphere considering a range of possible planetary masses, from 2 to 40 M⊕, and equilibrium temperatures, from 850 to 1300 K, to account for internal heating as a result of contraction. We obtain temperature profiles mostly controlled by the planet's ...
Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the ...
The atmospheres of close-in planets are strongly influenced by mass loss driven by the high-energy (...
The atmospheres of close-in planets are strongly influenced by mass loss driven by the high-energy (...
The K2-33 b is a planet of 5 Earth radii orbiting the young M-type host star, recently emerged from ...
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 ...
Context. X-rays and extreme ultraviolet radiation impacting a gas produce a variety of effects that,...
Context. Observations of young close-in exoplanets are providing initial indications for the charact...
Correct estimates of the high energy radiation environment around low-mass planet host stars are imp...
The NASA Kepler mission revealed the existence of a large variety of planets very different from wha...
Correct estimates of stellar extreme ultraviolet (EUV; 100–1170 Å) flux are important for studying t...
International audienceContext. Observationally constraining the atmospheric temperature-pressure (TP...
The amount of ultraviolet irradiation and ablation experienced by a planet depends strongly on the t...
Gas planets in close proximity to their host stars experience photoevaporative mass loss. The energy...
Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the ...
The atmospheres of close-in planets are strongly influenced by mass loss driven by the high-energy (...
The atmospheres of close-in planets are strongly influenced by mass loss driven by the high-energy (...
The K2-33 b is a planet of 5 Earth radii orbiting the young M-type host star, recently emerged from ...
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 ...
Context. X-rays and extreme ultraviolet radiation impacting a gas produce a variety of effects that,...
Context. Observations of young close-in exoplanets are providing initial indications for the charact...
Correct estimates of the high energy radiation environment around low-mass planet host stars are imp...
The NASA Kepler mission revealed the existence of a large variety of planets very different from wha...
Correct estimates of stellar extreme ultraviolet (EUV; 100–1170 Å) flux are important for studying t...
International audienceContext. Observationally constraining the atmospheric temperature-pressure (TP...
The amount of ultraviolet irradiation and ablation experienced by a planet depends strongly on the t...
Gas planets in close proximity to their host stars experience photoevaporative mass loss. The energy...
Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the ...
The atmospheres of close-in planets are strongly influenced by mass loss driven by the high-energy (...
The atmospheres of close-in planets are strongly influenced by mass loss driven by the high-energy (...