Aurora over the south pole
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The aurora australis, or southern lights, snakes across the permanently
dark winter skies of the south pole above the Concordia research
station. The misty red band of light known as the Milky Way rises high
into the sky.
Stars appear slightly smeared due to the rotation of Earth during the exposure of the image.
The image was taken on 18 July 2012 and first published on ESA’s Concordia blog.
Credits: ESA/IPEV/ENEAA/A. Kumar & E. Bondoux
The only sign of life here is the Concordia research station that ESA
uses to prepare for future long-duration missions beyond Earth. The site
also caters to scientific research from geology and glaciology to
climate change, astronomy and planetary magnetic fields.
Even though the Sun barely peeks above the horizon for months on end,
its effects are still played out with the fleeting visit of the aurora
australis, or southern lights (at the North Pole they are known as
aurora borealis, or the northern lights).
These colourful displays are produced when electrically charged
particles travelling from the Sun in the solar wind are channelled along
Earth’s magnetic field lines and strike atoms high in the atmosphere.
The colours correspond to collisions with different gases in the
atmosphere at different altitudes. Collisions with oxygen atoms
typically generate green aurora, while nitrogen lights up the sky in
red.
This auroral curtain is snaking towards the misty band of light known as the Milky Way, which rises high into the sky.
Since our Solar System resides inside the Milky Way Galaxy, this bright
streak is the edge-on view towards the highly populated centre.
The patchy nature of the swath traces sites of rich star formation interspersed with dark ‘holes’ of obscuring clouds of dust.
This image was taken on 18 July by scientists stationed at the Concordia research base during southern hemisphere winter.
Situated 3200 m above sea level, and with an average temperature of
–51°C during the permanently dark winter months, Concordia provides the
ideal conditions to study the effects of prolonged isolation in an
extremely hostile environment.
Lessons learnt here will help to prepare future astronauts for possible future interplanetary exploration to Mars or beyond.
ESA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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