J.D. Harrington
Headquarters, Washington
202-358-0321
j.d.harrington@nasa.gov
Whitney Clavin
Jet Propulsion Laboratory, Pasadena,
Calif.
818-354-4673
whitney.clavin@jpl.nasa.gov
WASHINGTON -- While some galaxies are
rotund and others are slender disks like our spiral Milky Way, new observations
from NASA's Spitzer Space Telescope show that the Sombrero galaxy is both. The
galaxy, which is a round, elliptical with a thin disk embedded inside, is one
of the first known to exhibit characteristics of the two different types. The
findings will lead to a better understanding of galaxy evolution, a topic still
poorly understood.
"The Sombrero is more complex than
previously thought," said Dimitri Gadotti of the European Southern
Observatory in Chile and lead author of a new paper on the findings appearing
in the Monthly Notices of the Royal Astronomical Society. "The only way to
understand all we know about this galaxy is to think of it as two galaxies, one
inside the other."
The Sombrero galaxy, also known as NGC
4594, is located 28 million light-years away in the constellation Virgo. From
our viewpoint on Earth, we can see the thin edge of its flat disk and a central
bulge of stars, making it resemble a wide-brimmed hat. Astronomers do not know
whether the Sombrero's disk is shaped like a ring or a spiral, but agree it
belongs to the disk class.
"Spitzer is helping to unravel
secrets behind an object that has been imaged thousands of times," said
Sean Carey of NASA's Spitzer Science Center at the California Institute of
Technology in Pasadena, Calif.. "It is intriguing Spitzer can read the
fossil record of events that occurred billions of years ago within this
beautiful and archetypal galaxy."
Spitzer captures a different view of the
galaxy than visible-light telescopes. In visible views, the galaxy appears to
be immersed in a glowing halo, which scientists had thought was relatively
light and small. With Spitzer's infrared vision, a different view emerges.
Spitzer sees old stars through the dust and reveals the halo has the right size
and mass to be a giant elliptical galaxy.
While it is tempting to think the giant
elliptical swallowed a spiral disk, astronomers say this is highly unlikely
because that process would have destroyed the disk structure. Instead, one
scenario they propose is that a giant elliptical galaxy was inundated with gas
more than nine billion years ago. Early in our universe, networks of gas clouds
were common, and they sometimes fed growing galaxies, causing them to bulk up.
The gas would have been pulled into the galaxy by gravity, falling into orbit
around the center and spinning out into a flat disk. Stars would have formed
from the gas in the disk.
"This poses all sorts of questions,"
said Rubén Sánchez-Janssen from the European Southern Observatory, co-author of
the study. "How did such a large disk take shape and survive inside such a
massive elliptical? How unusual is such a formation process?"
Researchers say the answers could help
them piece together how other galaxies evolve. Another galaxy, called Centaurus
A, appears also to be an elliptical galaxy with a disk inside it. But its disk
does not contain many stars. Astronomers speculate that Centaurus A could be at
an earlier stage of evolution than the Sombrero and might eventually look
similar.
The findings also answer a mystery about
the number of globular clusters in the Sombrero galaxy. Globular clusters are
spherical nuggets of old stars. Ellipticals typically have a few thousand,
while spirals contain a few hundred. The Sombrero has almost 2,000, a number
that makes sense now but had puzzled astronomers when they thought it was only
a disk galaxy.
For more information about Spitzer,
visit http://www.nasa.gov/spitzer.
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