Add to ORKGJupiter’s turbulent weather layer contains phenomena of many different sizes, from local storms up to the Great Red Spot and banded jets. The global circulation is driven by complex interactions with (as yet uncertain) small scale processes. We have calculated structure functions and kinetic energy spectral fluxes from Cassini observations over a wide range of length scales in Jupiter’s atmosphere. We found evidence for an inverse cascade of kinetic energy from length scales comparable with the first baroclinic Rossby deformation radius to the global jet scale, but also a forward cascade of kinetic energy from the deformation radius to smaller scales. The latter disagrees with the traditional picture of Jupiter’s atmospheric dynamics, but h...
The atmospheres of the gas giant planets (Jupiter and Saturn) contain jets that dominate the circula...
This talk has been presented at Sorbonne université and Ecole Normale Supérieure de Paris in Novembe...
Beebe et al. [Beebe, R.F., et al., 1980. Geophys. Res. Lett. 17, 1–4] and Ingersoll et al. [Ingersol...
Jupiter’s turbulent weather layer contains phenomena of many different sizes, from local storms up t...
We present suggestive evidence for an inverse energy cascade within Jupiter’s atmosphere through a c...
In December 2000, the Cassini fly-by near Jupiter delivered high-resolution images of Jupiter's clou...
AbstractIn December 2000, the Cassini fly-by near Jupiter delivered high-resolution images of Jupite...
In December 2000, the Cassini fly-by near Jupiter delivered high-resolution images of Jupiter’s clou...
International audienceJupiter’s atmosphere is one of the most turbulent places in the solar system. ...
The energetics and spectral characteristis of quasi-geostrophic turbulence in Jupiter's atmosphere a...
Jupiter's dominant large-scale weather patterns (dimensions ~10,000 km) are zonal jets and long-live...
Despite major differences in the solar and internal energy inputs, the atmospheres of the four Jovia...
Images of the giant planets Jupiter and Saturn show highly turbulent storms and swirling clouds that...
Voyager IRIS measurements on Jupiter show substantial vertical and horizontal structure which I appl...
This thesis describes the development of and results from a new numerical model of Jupiter's atmosph...
The atmospheres of the gas giant planets (Jupiter and Saturn) contain jets that dominate the circula...
This talk has been presented at Sorbonne université and Ecole Normale Supérieure de Paris in Novembe...
Beebe et al. [Beebe, R.F., et al., 1980. Geophys. Res. Lett. 17, 1–4] and Ingersoll et al. [Ingersol...
Jupiter’s turbulent weather layer contains phenomena of many different sizes, from local storms up t...
We present suggestive evidence for an inverse energy cascade within Jupiter’s atmosphere through a c...
In December 2000, the Cassini fly-by near Jupiter delivered high-resolution images of Jupiter's clou...
AbstractIn December 2000, the Cassini fly-by near Jupiter delivered high-resolution images of Jupite...
In December 2000, the Cassini fly-by near Jupiter delivered high-resolution images of Jupiter’s clou...
International audienceJupiter’s atmosphere is one of the most turbulent places in the solar system. ...
The energetics and spectral characteristis of quasi-geostrophic turbulence in Jupiter's atmosphere a...
Jupiter's dominant large-scale weather patterns (dimensions ~10,000 km) are zonal jets and long-live...
Despite major differences in the solar and internal energy inputs, the atmospheres of the four Jovia...
Images of the giant planets Jupiter and Saturn show highly turbulent storms and swirling clouds that...
Voyager IRIS measurements on Jupiter show substantial vertical and horizontal structure which I appl...
This thesis describes the development of and results from a new numerical model of Jupiter's atmosph...
The atmospheres of the gas giant planets (Jupiter and Saturn) contain jets that dominate the circula...
This talk has been presented at Sorbonne université and Ecole Normale Supérieure de Paris in Novembe...
Beebe et al. [Beebe, R.F., et al., 1980. Geophys. Res. Lett. 17, 1–4] and Ingersoll et al. [Ingersol...