An analytic radiative-convective model for planetary atmospheres

Keyphrases

• Sunlight 100%
• Planetary Atmospheres 100%
• Radiative Convective Model 100%
• Attenuation 66%
• Atmospheric Pressure 66%
• Thermal Structure 66%
• Adiabat 66%
• Convective Boundary 66%
• Optical Depth 33%
• Model Atmospheres 33%
• Condensation 33%
• Model Complexity 33%
• Jupiter 33%
• Temperature Profile 33%
• Giant Planets 33%
• Hydrostatic Equilibrium 33%
• Venus 33%
• General Behavior 33%
• Pressure-temperature 33%
• Atmospheric Attenuation 33%
• Scale Parameter 33%
• Analytic Expression 33%
• Hot Jupiters 33%
• Convective Flux 33%
• Two-streams Hypothesis 33%
• Flux Profile 33%
• Thermal Radiative 33%
• Thermal Optical 33%
• Power-law Scaling 33%
• Thermal Radiative Transfer 33%
• Mid-troposphere 33%

Physics

• Planetary Atmosphere 100%
• Atmospheric Pressure 100%
• Planetary Atmosphere 100%
• Radiative Transfer 50%
• Extrasolar Gas Giants 50%
• Temperature Profile 50%
• Condensation 50%
• Hot Jupiters 50%
• Atmospheric Attenuation 50%
• Troposphere 50%

Earth and Planetary Sciences

• Planetary Atmosphere 100%
• Atmospheric Pressure 100%
• Thermal Structure 100%
• Planetary Atmosphere 100%
• Power Law 50%
• Radiative Transfer 50%
• Temperature Profile 50%
• Troposphere 50%
• Atmospheric Attenuation 50%