The extremely dynamic atmosphere of Jupiter is characterised by alternated jets, a strong convective activity and an equatorial super-rotation whose formation mechanisms are poorly understood. In this thesis, we adopt a numerical modelling approach of the jovian weather layer to investigate those formation mechanisms. We use the global climate model DYNAMICO-giant which allows for simulating the atmospheric flow at high resolution with a realistic radiative transfer. In order to improve our model by way of more realistic forcings of the flow, we adapted the "thermal plume model", a terrestrial parametrization of the moist convection, to Jupiter's atmosphere. Thus our simulations recreate spontaneously some of the most essential features of ...
Jupiter's atmosphere displays a rich variety of dynamical phenomena. There are alternating east-wes...
The giant planets exhibit banded zonal jet streams that have maintained theirstructures over decades...
Observations of Jupiter show a super-rotating (prograde) equatorial jet that has persisted for decad...
The extremely dynamic atmosphere of Jupiter is characterised by alternated jets, a strong convective...
Jupiter possède une atmosphère extrêmement dynamique caractérisée par des courants-jets alternés, un...
This thesis aims at modeling selected aspects of Jupiter's fluid dynamics. The present work relies o...
This thesis describes the development of and results from a new numerical model of Jupiter's atmosph...
Cette thèse vise à modéliser certains aspects de la dynamique des fluides à l’œuvre sur Jupiter. Not...
We investigate the dynamics of Jupiter's upper troposphere and lower stratosphere using a General Ci...
The bands of Jupiter represent a global system of powerful winds. Broad eastward equatorial jets are...
Through this thesis, I have been motivated by the will to improve our knowledge of giant planets, fr...
Jupiter's dominant large-scale weather patterns (dimensions ~10,000 km) are zonal jets and long-live...
We have been developing a new three-dimensional general circulation model for the stratosphere and t...
The zonal flow in Jupiter’s upper troposphere is organized into alternating retrograde and prograde ...
Jupiter's atmosphere displays a rich variety of dynamical phenomena. There are alternating east-wes...
The giant planets exhibit banded zonal jet streams that have maintained theirstructures over decades...
Observations of Jupiter show a super-rotating (prograde) equatorial jet that has persisted for decad...
The extremely dynamic atmosphere of Jupiter is characterised by alternated jets, a strong convective...
Jupiter possède une atmosphère extrêmement dynamique caractérisée par des courants-jets alternés, un...
This thesis aims at modeling selected aspects of Jupiter's fluid dynamics. The present work relies o...
This thesis describes the development of and results from a new numerical model of Jupiter's atmosph...
Cette thèse vise à modéliser certains aspects de la dynamique des fluides à l’œuvre sur Jupiter. Not...
We investigate the dynamics of Jupiter's upper troposphere and lower stratosphere using a General Ci...
The bands of Jupiter represent a global system of powerful winds. Broad eastward equatorial jets are...
Through this thesis, I have been motivated by the will to improve our knowledge of giant planets, fr...
Jupiter's dominant large-scale weather patterns (dimensions ~10,000 km) are zonal jets and long-live...
We have been developing a new three-dimensional general circulation model for the stratosphere and t...
The zonal flow in Jupiter’s upper troposphere is organized into alternating retrograde and prograde ...
Jupiter's atmosphere displays a rich variety of dynamical phenomena. There are alternating east-wes...
The giant planets exhibit banded zonal jet streams that have maintained theirstructures over decades...
Observations of Jupiter show a super-rotating (prograde) equatorial jet that has persisted for decad...