This false-color composite image shows the Cartwheel galaxy as seen by the
Galaxy Evolution Explorer's far ultraviolet detector (blue); the Hubble
Space Telescope's wide field and planetary camera 2 in B-band visible
light (green); the Spitzer Space Telescope's infrared array camera at 8
microns (red); and the Chandra X-ray Observatory's advanced CCD imaging
spectrometer-S array instrument (purple).
Approximately 100 million years ago, a smaller galaxy plunged through the
heart of Cartwheel galaxy, creating ripples of brief star formation. In
this image, the first ripple appears as an ultraviolet-bright blue outer
ring. The blue outer ring is so powerful in the Galaxy Evolution Explorer
observations that it indicates the Cartwheel is one of the most powerful
UV-emitting galaxies in the nearby universe. The blue color reveals to
astronomers that associations of stars 5 to 20 times as massive as our sun
are forming in this region. The clumps of pink along the outer blue ring
are regions where both X-rays and ultraviolet radiation are superimposed
in the image. These X-ray point sources are very likely collections of
binary star systems containing a blackhole (called massive X-ray binary
systems). The X-ray sources seem to cluster around
optical/ultraviolet-bright supermassive star clusters.
The yellow-orange inner ring and nucleus at the center of the galaxy
result from the combination of visible and infrared light, which is
stronger towards the center. This region of the galaxy represents the
second ripple, or ring wave, created in the collision, but has much less
star formation activity than the first (outer) ring wave. The wisps of
red spread throughout the interior of the galaxy are organic molecules
that have been illuminated by nearby low-level star formation. Meanwhile,
the tints of green are less massive, older visible-light stars.
Although astronomers have not identified exactly which galaxy collided
with the Cartwheel, two of three candidate galaxies can be seen in this
image to the bottom left of the ring, one as a neon blob and the other as
a green spiral.
Previously, scientists believed the ring marked the outermost edge of the
galaxy, but the latest GALEX observations detect a faint disk, not visible
in this image, that extends to twice the diameter of the ring.