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A close study of auroras has revealed new ways of understanding the physics of explosive energy releases in space, according to new UCL-led research.
Auroras are a tell-tale sign of physical processes in space, acting like TV screens by showing what happens millions of kilometres away from Earth where our planet's magnetic field stretches into a long tail facing away from the Sun.
Study - Today - Nature - Communications - Team
For the study, published today in Nature Communications, the team from UCL and the University of Reading remotely observed rapidly evolving aurora to understand the physics behind why, when and how energy is released as the source of the aurora explosively reconfigures.
"Somewhere in the huge volume of space into which Earth's magnetosphere stretches, this energy release occurs via instability which is really hard to pinpoint. They cause substorms whereby charged particles surf into the Earth's atmosphere on electromagnetic waves, releasing large amounts of energy and lighting up the aurora" explained study author Dr. Jonathan Rae (UCL Space & Climate Physics).
Auroras - Space - Instabilities - Physics - Areas
"By studying auroras closely, we can map back to where in space the instabilities are occurring and study the physics that cause them. It's much more efficient than trying to observe vast areas of space."
The team scanned a large portion of the sky and found the perfect substorm located over Poker Flats in Alaska on 18 September 2012. By using new data from the MOOSE (Multi-spectral Observatory Of Sensitive EM-CCDs) camera, they tracked the aurora as it moved towards the northern pole over a four minute period.
Time - Type - Aurora - Scientists - Wealth
This is a relatively long time for this type of aurora to be studied, allowing the scientists to collect a wealth of data. The information was then analysed for specific patterns that gave important physical clues to the aurora's formation in space and time.
The aurora began...
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