spitzer and Hubble capture evolving planetary systems

Donald Savage
Headquarters, Washington Dec. 9, 2004
(Phone: 202/358-1727)

Whitney Clavin
Jet Propulsion Laboratory, Pasadena, Calif.
(Phone: 626/395-1877)

Ray Villard
Space Telescope Science Institute, Baltimore
(Phone: 410/338-4514)

RELEASE: 04-390

SPITZER AND HUBBLE CAPTURE EVOLVING PLANETARY SYSTEMS

Two of NASA's Great Observatories, the Spitzer Space
Telescope and the Hubble Space Telescope, have provided
astronomers an unprecedented look at dusty planetary debris
around stars the size of our sun.

Spitzer has discovered for the first time dusty discs around
mature, sun-like stars known to have planets. Hubble captured
the most detailed image ever of a brighter disc circling a
much younger sun-like star. The findings offer "snapshots" of
the process by which our own solar system evolved, from its
dusty and chaotic beginnings to its more settled present-day
state.

"Young stars have huge reservoirs of planet-building
materials, while older ones have only leftover piles of
rubble. Hubble saw the reservoirs and Spitzer, the rubble,"
said Dr. Charles Beichman of NASA's Jet Propulsion Laboratory
(JPL), Pasadena, Calif. He is lead author of the Spitzer
study. "This demonstrates how the two telescopes complement
each other," he added.

The young star observed by Hubble is 50 to 250 million years
old. This is old enough to theoretically have gas planets,
but young enough that rocky planets like Earth may still be
forming. The six older stars studied by Spitzer average 4
billion years old, nearly the same age as the sun. They are
known to have gas planets, and rocky planets may also be
present. Prior to the findings, rings of planetary debris, or
"debris discs," around stars the size of the sun had rarely
been observed, because they are fainter and more difficult to
see than those around more massive stars.

"The new Hubble image gives us the best look so far at
reflected light from a disc around a star the mass of the
sun," said Hubble study lead author, Dr. David Ardila of the
Johns Hopkins University, Baltimore. "Basically, it shows one
of the possible pasts of our own solar system," he said.

Debris discs around older stars the same size and age as our
sun, including those hosting known planets, are even harder
to detect. These discs are 10 to 100 times thinner than the
ones around young stars. Spitzer's highly sensitive infrared
detectors were able to sense their warm glow for the first
time.

"Spitzer has established the first direct link between
planets and discs," Beichman said. "Now, we can study the
relationship between the two." These studies will help future
planet-hunting missions, including NASA's Terrestrial Planet
Finder and the Space Interferometry Mission, predict which
stars have planets. Finding and studying planets around other
stars is a key goal of NASA's exploration mission.

Rocky planets arise out of large clouds of dust that envelop
young stars. Dust particles collide and stick together, until
a planet eventually forms. Sometimes the accumulating bodies
crash together and shatter. Debris from these collisions
collects into giant doughnut-shaped discs, the centers of
which may be carved out by orbiting planets. With time, the
discs fade and a smaller, stable debris disc, like the comet-
filled Kuiper Belt in our own solar system, is all that is
left.

The debris disc imaged by Hubble surrounds the sun-like star
called HD 107146, located 88 light-years away. John Krist, a
JPL astronomer, also used Hubble to capture another disc
around a smaller star, a red dwarf called AU Microscopii,
located 32 light-years away and only 12 million years old.
The Hubble view reveals a gap in the disc, where planets may
have swept up dust and cleared a path. The disc around HD
107146 also has an inner gap.

Beichman and his colleagues at JPL and the University of
Arizona, Tucson, used Spitzer to scan 26 older sun-like stars
with known planets, and found six with Kuiper Belt-like
debris discs. The stars range from 50 to 160 light-years
away. Their discs are about 100 times fainter than those
recently imaged by Hubble, and about 100 times brighter than
the debris disc around the sun. These discs are also
punctuated by holes at their centers.

Both Hubble images were taken with the advanced camera for
surveys. They will be published in the Astronomical Journal
and the Astrophysical Journal Letters. The Spitzer
observations are from the multiband imaging photometer and
will appear in the Astrophysical Journal. Electronic images
and additional information are available at:

http://hubblesite.org/news/2004/33
&
www.spitzer.caltech.edu

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Jacques :-)

www.spacepatches.info