Add to ORKGTwo-dimensional, radiative-convective-dynamical models of the visible atmospheres of Jupiter and Uranus are presented. Zonally-averaged temperatures and heat fluxes are calculated numerically as functions of pressure and latitude. In addition to radiative heat fluxes, the dynamical heat flux due to large-scale baroclinic eddies is included and is parametrized using a mixing length theory which gives heat fluxes similar to those of Stone. The results for Jupiter indicate that the internal heat flow is non-uniform in latitude and nearly balances the net radiative flux leaving the atmosphere. The thermal emission is found to be uniform in latitude in agreement with Pioneer and Voyager observations. Baroclinic eddies are calculated to transport...
The zonal flow in Jupiter’s upper troposphere is organized into alternating retrograde and prograde ...
The observed zonal motion of Jupiter's atmosphere near the cloud tops is investigated assuming geost...
Improving upon our purely dynamical work, we present three-dimensional simulations of the atmospheri...
Seasonal variability of the temperature structure of Uranus is modeled for all latitudes in the .000...
The seasonal meridional energy balance and thermal structure of the atmosphere of Uranus is investig...
The seasonal meridional energy balance and thermal structure of the atmosphere of Uranus is investig...
The author recently published a review of Jovian Meteorology (Ingersoll, 1976a). That review will n...
The present study of Uranus and Neptune radiative-convective equilibrium models gives emphasis to su...
The radiative seasonal model described by Bezard and Gautier for the case of Saturn was adapted to J...
Models of convection in Jupiter's interior are studied to test the hypothesis that internal heat bal...
Models of convection in Jupiter's interior are studied to test the hypothesis that internal heat bal...
Voyager flyby observations have yielded the first detailed maps of wind and temperature fields in th...
A zonally symmetric, linear radiative-dynamical model is compared with observations of the upper tro...
Many hot and ultra-hot Jupiters have inflated radii, implying that their interiors retain significan...
The zonal flow in Jupiter’s upper troposphere is organized into alternating retrograde and prograde ...
The zonal flow in Jupiter’s upper troposphere is organized into alternating retrograde and prograde ...
The observed zonal motion of Jupiter's atmosphere near the cloud tops is investigated assuming geost...
Improving upon our purely dynamical work, we present three-dimensional simulations of the atmospheri...
Seasonal variability of the temperature structure of Uranus is modeled for all latitudes in the .000...
The seasonal meridional energy balance and thermal structure of the atmosphere of Uranus is investig...
The seasonal meridional energy balance and thermal structure of the atmosphere of Uranus is investig...
The author recently published a review of Jovian Meteorology (Ingersoll, 1976a). That review will n...
The present study of Uranus and Neptune radiative-convective equilibrium models gives emphasis to su...
The radiative seasonal model described by Bezard and Gautier for the case of Saturn was adapted to J...
Models of convection in Jupiter's interior are studied to test the hypothesis that internal heat bal...
Models of convection in Jupiter's interior are studied to test the hypothesis that internal heat bal...
Voyager flyby observations have yielded the first detailed maps of wind and temperature fields in th...
A zonally symmetric, linear radiative-dynamical model is compared with observations of the upper tro...
Many hot and ultra-hot Jupiters have inflated radii, implying that their interiors retain significan...
The zonal flow in Jupiter’s upper troposphere is organized into alternating retrograde and prograde ...
The zonal flow in Jupiter’s upper troposphere is organized into alternating retrograde and prograde ...
The observed zonal motion of Jupiter's atmosphere near the cloud tops is investigated assuming geost...
Improving upon our purely dynamical work, we present three-dimensional simulations of the atmospheri...