HUBBLE DIRECTLY OBSERVES A
PLANET ORBITING ANOTHER STAR
From NASA
Nov. 13, 2008
RELEASE: 08-289
Fomalhaut has been a
candidate for planet hunting ever since an excess of dust was discovered around
the star in the early 1980s by NASA's Infrared Astronomy Satellite, IRAS. In
2004, the coronagraph in the High Resolution Camera on Hubble's Advanced Camera
for Surveys produced the first-ever resolved visible-light image of the region
around Fomalhaut. It clearly showed a ring of protoplanetary debris
approximately 21.5 billion miles across and having a sharp inner edge.
This large debris disk is
similar to the Kuiper Belt, which encircles the solar system and contains a
range of icy bodies from dust grains to objects the size of dwarf planets, such
as Pluto. Hubble astronomer Paul Kalas, of the University of California
Circumstantial evidence came
from Hubble's confirmation that the ring is offset from the center of the star.
The sharp inner edge of the ring is also consistent with the presence of a
planet that gravitationally "shepherds" ring particles. Independent
researchers have subsequently reached similar conclusions. Now, Hubble has
actually photographed a point source of light lying 1.8 billion miles inside the
ring's inner edge. The results are being reported in the November 14 issue of
Science magazine.
"Our Hubble
observations were incredibly demanding. Fomalhaut b is 1 billion times fainter
than the star. We began this program in 2001, and our persistence finally paid
off," Kalas says. "Fomalhaut is the gift that keeps on giving.
Following the unexpected discovery of its dust ring, we have now found an
exoplanet at a location suggested by analysis of the dust ring's shape. The
lesson for exoplanet hunters is 'follow the dust,'" said team member Mark Clampin
of NASA's Goddard Space Flight
Center in Greenbelt , Md.
Observations taken 21 months
apart by Hubble's Advanced Camera for Surveys' coronagraph show that the object
is moving along a path around the star, and is therefore gravitationally bound
to it. The planet is 10.7 billion miles from the star, or about 10 times the
distance of the planet Saturn from our sun. The planet is brighter than
expected for an object of three Jupiter masses. One possibility is that it has
a Saturn-like ring of ice and dust reflecting starlight. The ring might
eventually coalesce to form moons. The ring's estimated size is comparable to
the region around Jupiter and its four largest orbiting satellites.
Kalas and his team first
used Hubble to photograph Fomalhaut in 2004, and made the unexpected discovery
of its debris disk, which scatters Fomalhaut's starlight. At the time they
noted a few bright sources in the image as planet candidates. A follow-up image
in 2006 showed that one of the objects is moving through space with Fomalhaut
but changed position relative to the ring since the 2004 exposure. The amount
of displacement between the two exposures corresponds to an 872-year-long orbit
as calculated from Kepler's laws of planetary motion.
Future observations will attempt
to see the planet in infrared light and will look for evidence of water vapor
clouds in the atmosphere. This would yield clues to
the evolution of a comparatively newborn 100-million-year-old planet.
Astrometric measurements of the planet's orbit will provide enough precision to
yield an accurate mass. NASA's James Webb Space Telescope, scheduled to launch
in 2013 will be able to make coronagraphic observations of Fomalhaut in the
near- and mid-infrared. Webb will be able to hunt for other planets in the
system and probe the region interior to the dust ring for structures such as an
inner asteroid belt.
[Old news but still very
cool news.]
1 comment:
Old news but apparently new to me. I can't remember having read about this before. And, yes, very cool news.
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