NASAs Cassini probe discovers mysterious new aurora on SaturnNovember 13th, 2008 - 2:41 pm ICT by ANI
London, Nov 13 (ANI): An infrared camera aboard NASAs Cassini spacecraft has discovered a unique aurora lighting up Saturns polar cap, which is unlike any other known in our solar system.
Aurorae are caused when charged particles stream along the magnetic field of a planet and into its atmosphere. On Earth, these charged particles come from the solar wind a stream of particles that emanates from the Sun.
Saturns main aurora, which is caused by the solar wind, changes size dramatically as the wind varies. The newly observed aurora at Saturn, however, doesnt fit into either category.
Weve never seen an aurora like this elsewhere, said Tom Stallard, an RCUK Academic Fellow working with Cassini data at the University of Leicester.
Its not just a ring of aurorae like those weve seen at Jupiter or Earth. This one covers an enormous area across the pole. Our current ideas on what forms Saturns aurorae predict that this region should be empty, so finding such a bright one here is a fantastic surprise, he added.
Saturns unique auroral features are telling us there is something special and unforeseen about this planets magnetosphere and the way it interacts with the solar wind and the planets atmosphere, said
Nick Achilleos, Cassini scientist on the Cassini magnetometer team at the University College London.
Trying to explain its origin will no doubt lead us to physics which uniquely operates in the environment of Saturn, he added.
The new infrared aurora appears in a region hidden from NASAs Hubble Space Telescope, which has provided views of Saturns ultraviolet aurora.
Cassini observed it when the spacecraft flew near Saturns polar region. In infrared light, the aurora sometimes fills the region from around 82 degrees north all the way over the pole.
This new aurora is also constantly changing, even disappearing within a 45 minute-period. (ANI)
Tags: academic fellow, achilleos, aurorae, auroral, cassini probe, cassini spacecraft, hubble space telescope, infrared camera, infrared light, magnetic field, magnetometer team, magnetosphere, minute period, nasas, polar cap, polar region, solar wind, tom stallard, university college london, wind changes