by Staff Writers
London, UK (SPX) Apr 02, 2008
Astronomers have known for decades that the Sun has a very dynamic atmosphere. Huge fountains of hot gas erupt in the atmosphere, or corona, every few minutes, travelling at tens of thousands of km per hour and reaching great heights. Now a team of scientists have used the Hinode spacecraft to find the origin and driver of these fountains - immense magnetic structures that thread through the solar atmosphere.
On Wednesday 2 April at the Royal Astronomical Society National Astronomy Meeting in Belfast (NAM 2008), team leader Dr Michelle Murray from the Mullard Space Science Laboratory (MSSL, University College London) will present the latest results from Hinode together with computer simulations that model conditions on the Sun.
Since its launch in October 2006, scientists have been using Hinode to examine the solar atmosphere in extraordinary detail. One of the instruments on the space observatory, the Extreme Ultraviolet Imaging Spectrometer (EIS) built by a consortium led by MSSL, generates images of the Sun and gives information on how fast its gases are moving.
Increases in pressure at the base of the Sun's magnetic field cause enormous jets of hot gas to shoot upwards into the solar atmosphere. Once the pressure ceases, the hot gases stop soaring into the atmosphere and fall back towards the solar surface. The changes in pressure are caused by rearrangements of the Sun's magnetic field, a continual process that results in looping cycles of increasing and decreasing pressure and, consequentially, intermittent solar fountains.
"EIS has observed the Sun's fountains in unprecedented detail and it has enabled us to narrow down the fountains' origins for the first time", comments team member and MSSL postgraduate student Deb Baker.
"We have also been able to find what drives the fountains by using computer experiments to replicate solar conditions."
"The computer experiments demonstrate that when a new section of magnetic field pushes through the solar surface it generates a continual cycle of fountains", explains Dr Murray, "but new magnetic fields are constantly emerging across the whole of the solar surface and so our results can explain a whole multitude of fountains that have been observed with Hinode."
Mullard Space Science Laboratory
Solar Science News at SpaceDaily
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