Ultraviolet Surprise
How would you like to visit a universe full of exotic stars and weird galaxies the likes of which astronomers on Earth have never seen before?
Now you can. Just point your web browser to galex.stsci.edu and start exploring.
That's the address of the Galaxy Evolution Explorer image archive, a survey of the whole sky at ultraviolet wavelengths that can't be seen from the ground. Earth's atmosphere blocks far-ultraviolet light, so the only way to see the ultraviolet sky is by using a space telescope such as NASA's Galaxy Evolution Explorer.
Astronomers looking at new ultraviolet images from the Galaxy Evolution
Explorer spacecraft were surprised to discover a 13-light-year long tail
on Mira, a star that has been extensively studied for 400 years
About 65% of the images from the all-sky survey haven't been closely examined by astronomers yet, so there are plenty of surprises waiting to be uncovered.
'The Galaxy Evolution Explorer produces so much data that, beyond basic quality control, we just don't have time to look at it all,' says Mark Seibert, an astronomy postdoc at the Observatories of the Carnegie Institution of Washington in Pasadena, California.
This fresh view of the sky has already revealed striking and unexpected features of familiar celestial objects. Mira is a good example. Occasionally visible to the naked eye, Mira is a pulsating star monitored carefully by astronomers for more than 400 years. Yet until Galaxy Evolution Explorer recently examined Mira, no one would have guessed its secret: Mira possesses a comet-like tail 13 light-years long.
'Mira shows us that even well-observed stars can surprise us if we look at them in a different way and at different frequencies,' Seibert says.
Another example: In April, scientists announced that galaxies such as NGC 1512 have giant ultraviolet spiral arms extending three times farther out into space than the arms that can be seen by visible-light telescopes. It would be like looking at your pet dog through an ultraviolet telescope and discovering his ears are really three times longer than you thought!
The images from the ultraviolet space telescope are ideal for hunting new phenomena. The telescope's small, 20-inch primary mirror (not much bigger than a typical backyard telescope) offers a wide field of view. Each image covers 1.2 degrees of sky - lots of territory for the unexpected.
If someone combing the archives does find something of interest, Seibert advises that she or he should first search astronomy journals to see whether the phenomenon has been observed before. If it hasn't, email a member of the Galaxy Evolution Explorer science team and let them know, Seibert says.
So what are you waiting for? Fire up your web browser and let the discoveries begin!