Pinwheeling across the sky

June 11th, 2013 in Astronomy & Space / Astronomy
The face-on spiral galaxy M101, or the Pinwheel Galaxy, is seen at ultraviolet and optical wavelengths in this image taken by ESA’s XMM-Newton space telescope. The picture is composed of images taken by XMM-Newton’s Optical Monitor telescope using different filters: red (200–400 nm), green (200–300 nm) and blue (175–275 nm). Credit: ESA/XMM & R. Willatt


The face-on spiral galaxy M101, or the Pinwheel Galaxy, is seen at ultraviolet and optical wavelengths in this image taken by ESA’s XMM-Newton space telescope. The picture is composed of images taken by XMM-Newton’s Optical Monitor telescope using different filters: red (200–400 nm), green (200–300 nm) and blue (175–275 nm). Credit: ESA/XMM & R. Willatt

(Phys.org) —The face-on Pinwheel spiral galaxy is seen at ultraviolet wavelengths in this image taken by ESA's XMM-Newton space telescope.

Also known as M101, the galaxy lies 21 million light-years away in the constellation Ursa Major. It measures 170 000 light-years across – nearly twice the diameter of our own – and contains at least a trillion stars. About a billion of these stars could be similar to our own Sun.

More often seen in visible light, here the glows at . Massive, hot young stars streaming with ultraviolet radiation mark out the galaxy's spiral arms with bright pockets of forming stars.

Since the largest stars are the shortest lived, with a maximum lifespan of a few million years, studying the ultraviolet radiation being emitted by a distant galaxy is a good way to measure how much star formation is taking place within it – and it is clear that M101 is still very active.

The galaxy has also borne witness to the death of stars, with four supernova explosions recorded between 1909 and 2011.

The Pinwheel Galaxy appears slightly lopsided, its arms wound tightly around the central bulge on one side but more loosely bound on the other. Its architecture is likely due to interactions with other galaxies earlier in its history, their gravitational attraction pushing and pulling M101's arms in new directions.

This view of M101 is composed of images taken by XMM-Newton's Optical Monitor telescope using different filters: red, green and blue.

Provided by European Space Agency

"Pinwheeling across the sky." June 11th, 2013. http://phys.org/news/2013-06-pinwheeling-sky.html