Add to ORKGThe close-in extrasolar giant planets (CEGPs) reside in irradiated environments much more intense than that of the giant planets in our solar system. The high UV irradiance strongly influences their photochemistry, and the general current view believed that this high UV flux will greatly enhance photochemical production of hydrocarbon aerosols. In this Letter, we investigate hydrocarbon aerosol formation in the atmospheres of CEGPs. We find that the abundances of hydrocarbons in the atmospheres of CEGPs are significantly less than that of Jupiter except for models in which the CH4 abundance is unreasonably high (as high as CO) for the hot (effective temperatures ≳1000 K) atmospheres. Moreover, the hydrocarbons will be condensed out to form ...
The elemental ratios of carbon, nitrogen, and oxygen in the atmospheres of hot Jupiters may hold clu...
We present an update of the open-source photochemical kinetics code VULCAN (Tsai et al. 2017; this h...
Recent infrared spectroscopy of hot exoplanets is beginning to reveal their atmospheric composition....
The close-in extrasolar giant planets (CEGPs) reside in irradiated environments much more intense th...
The close-in extrasolar giant planets (CEGPs) reside in irradiated environments much more intense th...
Some super Earths and mini Neptunes will likely have thick atmospheres that are not H_2-dominated. W...
Over 150 extrasolar planets are known to orbit sun-like stars. A growing number of them (9 to date) ...
A photochemical model for the atmosphere of Jupiter, including 1-D vertical eddy diffusive transport...
The first young giant planet to be discovered by the Gemini Planet Imager was the (is) approximately...
Jupiter has a large magnetosphere that episodically precipitates large amounts of energy into the po...
Some super Earths and mini Neptunes will likely have thick atmospheres that are not H2-dominated. We...
When exposed to stellar UV radiation, chemical processes will be governed not only by temperature/pr...
A combined study of hydrocarbon and atomic hydrogen photochemistry is made to calculate self-consist...
We use a model of aerosol microphysics to investigate the impact of high-altitude photochemical aero...
We study the properties of photochemical hazes in super-Earth/mini-Neptune atmospheres with particul...
The elemental ratios of carbon, nitrogen, and oxygen in the atmospheres of hot Jupiters may hold clu...
We present an update of the open-source photochemical kinetics code VULCAN (Tsai et al. 2017; this h...
Recent infrared spectroscopy of hot exoplanets is beginning to reveal their atmospheric composition....
The close-in extrasolar giant planets (CEGPs) reside in irradiated environments much more intense th...
The close-in extrasolar giant planets (CEGPs) reside in irradiated environments much more intense th...
Some super Earths and mini Neptunes will likely have thick atmospheres that are not H_2-dominated. W...
Over 150 extrasolar planets are known to orbit sun-like stars. A growing number of them (9 to date) ...
A photochemical model for the atmosphere of Jupiter, including 1-D vertical eddy diffusive transport...
The first young giant planet to be discovered by the Gemini Planet Imager was the (is) approximately...
Jupiter has a large magnetosphere that episodically precipitates large amounts of energy into the po...
Some super Earths and mini Neptunes will likely have thick atmospheres that are not H2-dominated. We...
When exposed to stellar UV radiation, chemical processes will be governed not only by temperature/pr...
A combined study of hydrocarbon and atomic hydrogen photochemistry is made to calculate self-consist...
We use a model of aerosol microphysics to investigate the impact of high-altitude photochemical aero...
We study the properties of photochemical hazes in super-Earth/mini-Neptune atmospheres with particul...
The elemental ratios of carbon, nitrogen, and oxygen in the atmospheres of hot Jupiters may hold clu...
We present an update of the open-source photochemical kinetics code VULCAN (Tsai et al. 2017; this h...
Recent infrared spectroscopy of hot exoplanets is beginning to reveal their atmospheric composition....