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In Search of Dark Asteroids (and Other Sneaky Things)



 
 
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Default In Search of Dark Asteroids (and Other Sneaky Things)

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In Search of Dark Asteroids (and Other Sneaky Things)
NASA Science News
September 15, 2009

Ninjas knew how to be stealthy: Be dark. Emit very little light. Move
in the shadows between bright places.

In modern warfare, though, ninjas would be sitting ducks. Their black
clothes may be hard to see at night with the naked eye, but their warm
bodies would be clearly visible to a soldier wearing infrared goggles.

To hunt for the "ninjas" of the cosmos - dim objects that lurk in the
vast dark spaces between planets and stars - scientists are building
by
far the most sensitive set of wide-angle infrared goggles ever, a
space
telescope called the Widefield Infrared Survey Explorer (WISE).

WISE will scan the entire sky at infrared wavelengths, creating the
most
comprehensive catalog yet of dark and dim objects in the cosmos: vast
dust clouds, brown dwarf stars, asteroids - even large, nearby
asteroids
that might pose a threat to Earth.

Surveys of nearby asteroids based on visible-light telescopes could be
skewed toward asteroids with more-reflective surfaces. "If there's a
significant population of asteroids nearby that are very dark, they
will
have been missed by these previous surveys," says Edward Wright,
principal investigator for WISE and a physicist at the University of
California in Los Angeles.

The full-sky infrared map produced by WISE will reveal even these
darker
asteroids, mapping the locations and sizes of roughly 200,000
asteroids
and giving scientists a clearer idea of how many large and potentially
dangerous asteroids are nearby. WISE will also help answer questions
about the formation of stars and the evolution and structure of
galaxies, including our own Milky Way.

And the discoveries won't likely stop there.

"When you look at the sky with new sensitivity and a new wavelength
band, like WISE is going to do, you're going to find new things that
you
didn't know were out there," Wright says.

Stars emit visible light in part because they're so hot. But cooler
objects like asteroids emit light too, just at longer, infrared
wavelengths that are invisible to the unaided eye. In fact, any object
warmer than absolute zero will emit at least some infrared light.

Unfortunately, this fact makes building an infrared telescope rather
difficult. Without a coolant, the telescope itself would glow in
infrared light just like all other warm objects do. It would be like
building a normal, visible-light telescope out of Times Square
billboard
lights: The telescope would be blinded by its own glow.

To solve this problem, WISE will cool its components to about 15°C
above
absolute zero (or -258°C) using a block of solid hydrogen. Mission
scientists chose solid hydrogen over liquid helium, which is often
used
in research for cooling materials to near absolute zero, because a
smaller volume of solid hydrogen can do the job. "The cooling power is
much higher for hydrogen than for helium," Wright explains. When
launching a telescope into space, being smaller and lighter saves
money.

Previous space telescopes such as the Infrared Astronomical Satellite
(IRAS) have mapped the sky at infrared wavelengths before, but WISE
will
be hundreds of times more sensitive. While other missions could only
see
diffuse sources of infrared light such as large dust clouds, WISE will
be able to see asteroids and other point sources.

After it launches into orbit as early as this December, WISE will
spend
6 months mapping the sky, during which it will download its data to
ground stations 4 times each day. Analyzing that data should give
scientists some new insights into the cosmos.

For example, one theory posits that most of the stars in the Universe
were formed in the press of colliding galaxies. When galaxies collide,
interstellar clouds of gas and dust smash together, compressing the
clouds and starting a self-perpetuating cycle of gravitational
collapse.
The result is a flurry of starbirth. Newborn stars are usually
concealed
by the dusty clouds they are born in. Ordinary light cannot escape,
but
infrared light can.

WISE will be able to detect infrared emissions from the most active
star-forming regions. This will help scientists know how rapidly stars
are formed during galactic collisions, which could indicate how many
of
the universe's stars were formed this way.

WISE will also target dim "failed stars" called brown dwarfs that
outnumber ordinary stars by a wide margin. Mapping brown dwarfs in the
Milky Way may reveal much about the structure and evolution of our own
galaxy.

And this could be just the beginning of the discoveries scientists
make
once WISE puts the spotlight on stealthy denizens of the dark.


 




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