J.D. Harrington
Headquarters, Washington
202-358-5241
j.d.harrington@nasa.gov
Whitney Clavin
Jet Propulsion Laboratory, Pasadena,
Calif.
818-354-4673
whitney.clavin@jpl.nasa.gov
WASHINGTON -- NASA's Wide-field Infrared
Survey Explorer (WISE) mission has led to a bonanza of newfound supermassive
black holes and extreme galaxies called hot DOGs, or dust-obscured galaxies.
Images from the telescope have revealed
millions of dusty black hole candidates across the universe and about 1,000
even dustier objects thought to be among the brightest galaxies ever found.
These powerful galaxies that burn brightly with infrared light are nicknamed
hot DOGs.
"WISE has exposed a menagerie of
hidden objects," said Hashima Hasan, WISE program scientist at NASA
Headquarters in Washington. "We've found an asteroid dancing ahead of
Earth in its orbit, the coldest star-like orbs known and now, supermassive
black holes and galaxies hiding behind cloaks of dust."
WISE scanned the whole sky twice in
infrared light, completing its survey in early 2011. Like night-vision goggles
probing the dark, the telescope captured millions of images of the sky. All the
data from the mission have been released publicly, allowing astronomers to dig
in and make new discoveries.
The latest findings are helping
astronomers better understand how galaxies and the behemoth black holes at
their centers grow and evolve together. For example, the giant black hole at
the center of our Milky Way galaxy, called Sagittarius A*, has 4 million times
the mass of our sun and has gone through periodic feeding frenzies where
material falls towards the black hole, heats up, and irradiates its surroundings.
Bigger central black holes, up to a billion times the mass of our sun, even may
shut down star formation in galaxies.
In one study, astronomers used WISE to
identify about 2.5 million actively feeding supermassive black holes across the
full sky, stretching back to distances more than 10 billion light-years away.
About two-thirds of these black holes never had been detected before because
dust blocks their visible light. WISE easily sees these monsters because their
powerful, accreting black holes warm the dust, causing it to glow in infrared
light.
In two other WISE papers, researchers
report finding what are among the brightest galaxies known, one of the main
goals of the mission. So far, they have identified about 1,000 candidates.
These extreme objects can pour out more
than 100 trillion times as much light as our sun. They are so dusty, however,
that they appear only in the longest wavelengths of infrared light captured by
WISE. NASA's Spitzer Space Telescope followed up on the discoveries in more
detail and helped show that, in addition to hosting supermassive black holes
feverishly snacking on gas and dust, these DOGs are busy churning out new
stars.
"These dusty, cataclysmically
forming galaxies are so rare WISE had to scan the entire sky to find
them," said Peter Eisenhardt, lead author of the paper on the first of
these bright, dusty galaxies, and project scientist for WISE at JPL. "We
are also seeing evidence that these record setters may have formed their black
holes before the bulk of their stars. The 'eggs' may have come before the
'chickens.'"
More than 100 of these objects, located
about 10 billion light-years away, have been confirmed using the W.M. Keck
Observatory on Mauna Kea, Hawaii, as well as the Gemini Observatory in Chile, Palomar's
200-inch Hale telescope near San Diego, and the Multiple Mirror Telescope
Observatory near Tucson, Ariz.
The WISE observations combined with data
at even longer infrared wavelengths from Caltech's Submillimeter Observatory
atop Mauna Kea, Hawaii, revealed that these extreme galaxies are more than
twice as hot as other infrared-bright galaxies. One theory is their dust is
being heated by an extremely powerful burst of activity from the supermassive
black hole.
"We may be seeing a new, rare phase
in the evolution of galaxies," said Jingwen Wu of JPL, lead author of the
study on the submillimeter observations. All three papers are being published
in the Astrophysical Journal.
For more information about WISE, visit http://www.nasa.gov/wise.
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