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| In the upper part a detailed image in false colour of the storm on Saturn is shown. The lower part is a computer simulation of the storm [Credit: UPV/EHU] |
The storm initiated as a small brilliant white cloud in the middle latitudes of the northern hemisphere of the planet, and grew rapidly and remained active for more than seven months. Over this time an amalgam of white clouds was generated which expanded to form a cloudy and turbulent ring with a surface area of thousands of millions of square kilometres. Two year age the Planetary Sciences Group presented a first study of the storm and which was published on the front cover of Nature on the 7th of July, 2011. Now, with this new research, the hidden secrets of the phenomenon have been revealed, studying in detail the "head" and the "focus" of the Great White Spot.
The team of astronomers analysed the images taken from the Cassini probe in order to measure the winds in the "head" of the storm, the focus where the activity originated. In this region the storm interacts with the circulating atmosphere, forming very intense sustained winds, typically of 500 kilometres an hour. "We did not expect to find such violent circulation in the region of the development of the storm, which is a symptom of the particularly violent interaction between the storm and the planet's atmosphere," commented Enrique García. They were also able to determine that these storm clouds are at 40 km above the planet's own clouds.
Information about the mechanisms causing meteorological phenomena
The research revealed the mechanism that produces this phenomenology. The team of scientists designed mathematical models capable of reproducing the storm on a computer, providing a physical explanation for the behaviour of this giant storm and for its lengthy duration. The calculations show that the focus of the storm is deeply embedded, some 300 km above the visible clouds. The storm transports enormous quantities of moist gas in water vapour to the highest levels of the planet, forming visible clouds and liberating enormous quantities of energy.
This injection of energy interacts violently with the dominant wind of Saturn to produce wind storms of 500 km/h. The research also showed that, despite the enormous activity of the storm, this was not able to substantially modify the prevailing winds which blow permanently in the same direction as Earth's parallels, but they did interact violently with them. An important part of the computer's calculations were made thanks to the Centre de Serveis Científics i Acadèmics de Catalunya (CESCA), and the computer services at the Institut de Ciències de l'Espai (ICE), also based in the Catalan capital of Barcelona.
Apart from the curiosity of knowing the physical processes underlying the formation of these giant storms on Saturn, the study of these phenomena enable us to enhance our knowledge of the models employed in research into meteorology and the behaviour of Earth's atmosphere, in a very different environment and impossible to simulate in a laboratory. "The storms on Saturn are, in a way, a test bank of the physical mechanisms underlying the generation of similar meteorological phenomena on Earth," commented Agustín Sánchez Lavega, Director of the Planetary Sciences Group at the UPV/EHU.
Source: Basque Research [June 24, 2013]