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newscientist 00209.txt

#Sun's fractal surprise could help fusion On earth THE sun has thrown us a fractal surprise. An unexpected pattern has been glimpsed in the solar wind the turbulent plasma of charged particles that streams from the sun. It offers clues for handling plasmas that roil inside nuclear fusion reactors On earth. Composed of charged particles such as protons and electrons the solar wind streams from the sun and pervades the solar system. Its flow is turbulent containing eddies and moving at different speeds in different directions. It was thought that this turbulence was similar to that in a fluid behaving like mixing ocean currents or the air flows that make aeroplane flights bumpy. Now Sandra Chapman of the University of Warwick UK and her colleagues have examined the solar wind's behaviour using NASA's twin STEREO spacecraft. One flies just within Earth's orbit around the sun the other just outside it allowing the pair to obtain unique measurements of solar wind behaviour. STEREO revealed that when the movement of the wind's particles is perpendicular to the sun's magnetic field they resemble a fluid with sections that are smooth interrupted by bursts of violence. If you look out of a plane window you see mountain ranges and then long rolling plains. This is what the perpendicular fluid turbulence is like says Chapman. But when the particles move in parallel with the field lines they behave very differently with the turbulence evenly spread like crinkly mountains that extend as far as the eye can see (see diagram. It's a different kind of physics says Chapman. What's more that crinkliness is constant no matter how much you zoom in or out on a patch of wind making its behaviour fractal (The Astrophysical Journal Letters doi. org/skf). Snowflakes shorelines and most recently black holes (see Turbulent black holes grow fractal skins as they feed) also exhibit such fractal behaviour. The result may help to control nuclear fusion reactors. These create energy in the same way as the sun by fusing a superheated plasma of hydrogen nuclei to form helium. One problem with optimising their energy output is deducing what is going on inside them inserting a probe isn't an option as it would melt. Enter the solar wind. Though less dense and cooler than the hydrogen of a fusion reactor the wind is a plasma and can be probed thanks to STEREO. The great thing about solar wind turbulence is that the satellites sit right inside so it can be observed in exquisite detail says Steve Cowley of the Culham Centre for Fusion energy UK. By adding the fractal behaviour to their plasma models fusion scientists may be able to control turbulence which can cause plasma to escape the magnetic field containing it in the reactor. They may also be able to use turbulence to disrupt high energy plasma blobs that can rip holes in the reactor. These results look very promising says Todd Evans of nuclear energy firm General Atomics in San diego California. This article appeared in print under the headline Sunny surprise for fusion reactor r

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