The Galaxy Menagerie from WISE
A new, colorful collection of galaxy specimens has been released by NASA’s Wide-field Infrared Survey Explorer, or WISE, mission. It showcases galaxies of several types, from elegant grand design spirals to more patchy flocculent spirals. Some of the galaxies have roundish centers, while others have elongated central bars. The orientation of the galaxies varies as well, with some seeming to peer straight back at us in the face-on configuration while others point to the side, appearing edge-on.
Infrared light has been translated into colors we see with our eyes, such that the shortest wavelengths are blue and the longest are red. The oldest stars appear blue, while pockets of newly formed stars have yellow or reddish hues. Below is more information about each member of WISE’s galaxy collection. The order is from top left to right; middle left to right; and bottom left to right. Click on the name for high resolution individual images.
The Whirpool Galaxy, or Messier 51 (M51)
Known by astronomers as M51, this beauty is a grand design spiral, which are galaxies with well-defined spiral arms. Its smaller companion, a dwarf galaxy called NGC 5195, is thought to have helped define and shape the arms due to its gravitational “dance” with its larger partner. M51 is also known as “The Lord Ross galaxy,” after the astronomer who was the first to study its spiral structure in the 1840s. It is located 25 million light-years away in the constellation Canes Venatici, and is 81,000 light-years across.
Bode’s Galaxy, or Messier 81 (M81)
M81 is another grand design spiral galaxy, with pronounced arms spiraling into its core. WISE highlights areas where gas and dust have been compressed in the arms, leading to the formation of new stars. This compression has been enhanced by the galaxy’s interaction with its partner galaxy, Messier 82 (not pictured here). That galaxy is bursting with new stars, and is therefore known as a “starburst.” M81 is 12 million light-years away in the constellation Ursa Major, and 94,000 light-years across.
Southern Pinwheel Galaxy, or Messier 83 (M83)
At about 55,500 light-years across, M83 is s a bit more than half the size of our Milky Way Galaxy, but it has a similar overall structure. Like the Milky Way, most of M83’s stars, dust, and gas lie in a thin disk decorated with grand spiral arms. This galaxy is classified as a barred spiral because, in addition to a central bulge of stars, it has a central bar-shaped region of stars. It is 15 million light-years away in the constellation Hydra.
NGC 628, or Messier 74 (M74)
Some astronomers call the grand design spiral Messier 74 the “perfect spiral,” for its exceptional symmetry. It is suspected to have a black hole at its center, with a mass equal to 10,000 suns. It is one of only a handful of known black holes with masses intermediate between the relatively smaller ones that form from collapsing stars and the supermassive black holes millions of times more massive than the sun. Supermassive black holes are more typically found at the centers of galaxies. Messier 74 is located between 24.5 and 36 million light-years away in the constellation Pisces, and is 100,000 light-years across.
NGC 1398
This barred spiral has a dense inner ring that surrounds a bright, central core. The ring is actually two spiral arms that are closed in on each other. In contrast to its well-defined center, this galaxy’s arms are patchy, or flocculent. It is inclined about 43 degrees away from an edge-on orientation, and has a diameter of 135,000 light-years. NGC 1398 is 65 million light-years away in the Fornax constellation, and is part of the Fornax cluster of galaxies.
NGC 2403
This fuzzy-looking galaxy is a flocculent, or patchy, spiral. It is largely veiled by gas and dust at visible-light wavelengths, but when viewed with WISE, its arms are clearly revealed. In 2004, NGC 2403 was host to one of the largest supernova in recent decades — SN 2004dj was first observed in 2004 in Japan and was visible for 8 months. NGC 2403 is located 11.4 million-light years away in the constellation Camelopardalis, and is about 73,000 light-years across.
Splinter or Knife Edge galaxy, or NGC 5907
This galaxy’s face is angled about 90 degrees from our view, so it appears edge-on and thin as a splinter, or knife. It was discovered by the astronomer William Herschel in 1788. There is a large complex of stellar streams surrounding the galaxy, which can’t be seen in the WISE image. These are the torn-up shreds of smaller galaxies that were consumed. The faint green hue seen in the WISE composite is due to the “halo” of old stars that encircles the central region of the galaxy. The Splinter galaxy is about 53 million light-years away in the constellation Draco, and is nearly 200,000 light-years across.
Barnard’s Galaxy, IC 4895 or NGC 6822
Barnard’s galaxy is known as a dwarf for its small size — it has only about one percent of the mass of the Milky Way. The galaxy’s irregular shape is dominated by a central bar of stars, whose appearance resembles that of the nearby satellite galaxy, the Large Magellanic Cloud. It is therefore given a classification of “Magellanic type.” The prominent yellow blobs seen against the blue stellar background are sites of recent star formation. Barnard’s galaxy is 1.6 million light-years away in the Sagittarius constellation, and is about 7,000 light-years across.
Hidden Galaxy, or IC342
Sometimes called the Hidden galaxy, this spiral beauty is shrouded behind our own galaxy, the Milky Way. Stargazers and professional astronomers have a hard time seeing the galaxy through the Milky Way’s bright band of stars, dust and gas. WISE’s infrared vision cuts through this veil, offering a crisp view. The nucleus is very bright at infrared wavelengths, due to a burst of new stars forming there. The Hidden galaxy is located about 10 million light-years away in the constellation Camelopardalis, and is 62,000 light-years across.
The colors used in all of these image represent specific wavelengths of infrared light. Blue and cyan represent 3.4- and 4.6-micron light, mainly emitted by hot stars. Green and red represent 12- and 22-micron wavelengths, primarily light emitted from warm dust.
JPL manages the Wide-field Infrared Survey Explorer for NASA’s Science Mission Directorate, Washington. The principal investigator, Edward Wright, is at UCLA. The mission was competitively selected under NASA’s Explorers Program managed by the Goddard Space Flight Center, Greenbelt, Md. The science instrument was built by the Space Dynamics Laboratory, Logan, Utah, and the spacecraft was built by Ball Aerospace & Technologies Corp., Boulder, Colo. Science operations and data processing take place at the Infrared Processing and Analysis Center at the California Institute of Technology in Pasadena. Caltech manages JPL for NASA.
More information is online at http://www.nasa.gov/wise and http://wise.astro.ucla.edu.
Image Credit: NASA/JPL-Caltech/UCLA
![thescienceofreality:
Spitzer Milky Way Galaxy“A recent survey of stars conducted with the Spitzer Space Telescope is convincing astronomers that our Milky Way Galaxy is not just your ordinary spiral galaxy anymore. Looking out from within the Galaxy’s disk, the true structure of the Milky Way is difficult to discern. However, the penetrating infrared census of about 30 million stars indicates that the Galaxy is distinguished by a very large central bar some 27,000 light-years long. In fact, from a vantage point that viewed our galaxy face-on, astronomers in distant galaxies would likely see a striking barred spiral galaxy suggested in this artist’s illustration. While previous investigations have identified a small central barred structure, the new results indicate that the Milky Way’s large bar would make about a 45 degree angle with a line joining the Sun and the Galaxy’s center. DON’T PANIC … astronomers still place the Sun beyond the central bar region, about a third of the way in from the Milky Way’s outer edge.This artist’s rendering shows a view of our own Milky Way Galaxy and its central bar as it might appear if viewed from above. An arrow indicates the location of our Sun. Astronomers have concluded for many years that our galaxy harbors a stellar bar, though its presence has been inferred indirectly. Our vantage point within the disk of the galaxy makes it difficult to accurately determine the size and shape of this bar and surrounding spiral arms.New observations by the GLIMPSE legacy team with NASA’s Spitzer Space Telescope indicate that the bar-shaped collection of old stars at the center of our galaxy may be longer, and at a different orientation, than previously believed. The newly-deduced size and angle of the bar are shown relative to our Sun’s location. Our Milky Way galaxy may appear to be very different from an ordinary spiral galaxy.”
[Via Sky Image Lab]](http://25.media.tumblr.com/tumblr_m66iay82rz1r39hw6o1_500.jpg)
