NASA's Spitzer Sees Milky Way's Blooming Countryside

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June 5, 2013

J.D. Harrington 
Headquarters, Washington                                  
202-358-5241 
j.d.harrington@xxxxxxxx 

Whitney Clavin 
Jet Propulsion Laboratory, Pasadena, Calif. 
818-354-4673 
whitney.clavin@xxxxxxxxxxxx 

RELEASE: 13-168

NASA'S SPITZER SEES MILKY WAY'S BLOOMING COUNTRYSIDE

WASHINGTON -- New views from NASA's Spitzer Space Telescope show 
blooming stars in our Milky Way galaxy's more barren territories, far 
from its crowded core. 

The images are part of the Galactic Legacy Infrared Mid-Plane Survey 
Extraordinaire (Glimpse 360) project, which is mapping the celestial 
topography of our galaxy. The map and a full, 360-degree view of the 
Milky Way plane will be available later this year. Anyone with a 
computer may view the Glimpse images and help catalog features. 

We live in a spiral collection of stars that is mostly flat, like a 
vinyl record, but it has a slight warp. Our solar system is located 
about two-thirds of the way out from the Milky Way's center, in the 
Orion Spur, an offshoot of the Perseus spiral arm. Spitzer's infrared 
observations are allowing researchers to map the shape of the galaxy 
and its warp with the most precision yet. 

While Spitzer and other telescopes have created mosaics of the 
galaxy's plane looking in the direction of its center before, the 
region behind us, with its sparse stars and dark skies, is less 
charted. 

"We sometimes call this flyover country," said Barbara Whitney, an 
astronomer from the University of Wisconsin at Madison, who uses 
Spitzer to study young stars. "We are finding all sorts of new star 
formation in the lesser-known areas at the outer edges of the 
galaxy." 

Whitney and colleagues are using the data to find new sites of 
youthful stars. For example, they spotted an area near Canis Major 
with 30 or more young stars sprouting jets of material, an early 
phase in their lives. So far, the researchers have identified 163 
regions containing these jets in the Glimpse 360 data, with some of 
the young stars highly clustered in packs and others standing alone. 

Robert Benjamin is leading a University of Wisconsin team that uses 
Spitzer to more carefully pinpoint the distances to stars in the 
galaxy's hinterlands. The astronomers have noticed a distinct and 
rapid drop-off of red giants, a type of older star, at the edge of 
the galaxy. They are using this information to map the structure of 
the warp in the galaxy's disk. 

"With Spitzer, we can see out to the edge of the galaxy better than 
before," said Robert Benjamin of the University of Wisconsin, who 
presented the results Wednesday at the 222nd meeting of the American 
Astronomical Society in Indianapolis. "We are hoping this will yield 
some new surprises." 

Thanks to Spitzer's infrared instruments, astronomers are capturing 
improved images of those remote stellar lands. Data from NASA's 
Wide-field Infrared Survey Explorer (WISE) are helping fill in gaps 
in the areas Spitzer did not cover. WISE was designed to survey the 
entire sky twice in infrared light, completing the job in early 2011, 
while Spitzer continues to probe the infrared sky in more detail. The 
results are helping to canvas our galaxy, filling in blanks in the 
outer expanses where not much is known. 

Glimpse 360 already has mapped 130 degrees of the sky around the 
galactic center. Four new views from the area looking away from the 
galactic center are online at: 

http://go.nasa.gov/ZtA1Sn  

Members of the public continue scouring images from earlier Glimpse 
data releases in search of cosmic bubbles indicative of hot, massive 
stars. Astronomers' knowledge of how massive stars influence the 
formation of other stars is benefitting from this citizen science 
activity, called The Milky Way Project. For instance, volunteers 
identified a striking multiple bubble structure in a star-forming 
region called W39. Follow up work by the researchers showed the 
smaller bubbles were spawned by a larger bubble that had been carved 
out by massive stars. 

"This crowdsourcing approach really works," said Charles Kerton of 
Iowa State University at Ames, who also presented results. "We are 
examining more of the hierarchical bubbles identified by the 
volunteers to understand the prevalence of triggered star formation 
in our galaxy." 

For more information about the Milky Way project and to learn how to 
participate, visit: 

http://www.milkywayproject.org 

More information about Spitzer is at: 

http://www.nasa.gov/spitzer 

	
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