Star Cluster Holds Midweight Black Hole, VLA Indicates (Forwarded)

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May 28, 2007

Star Cluster Holds Midweight Black Hole, VLA Indicates

Astronomers using the National Science Foundation's Very Large Array (VLA)
radio telescope have greatly strengthened the case that supermassive black
holes at the cores of galaxies may have formed through mergers of smaller
black holes. Their VLA studies showed that a globular star cluster in the
galaxy M31 probably has a black hole with 20,000 times the mass of the Sun
at its core.

"That amount of mass is midway between the black holes left when giant
stars explode as supernovae and the supermassive black holes with millions
of times the mass of the Sun. It suggests that there is a clear path for
forming the supermassive ones through successive mergers of smaller black
holes," said James Ulvestad, of the National Radio Astronomy Observatory.
Ulvestad, Jenny Greene of Princeton University, and Luis Ho of the
Observatories of the Carnegie Institute of Washington presented their
findings to the American Astronomical Society's meeting in Honolulu,
Hawaii.

Black holes appear to be intimately connected with the formation of
massive spherical bulges in galaxies. Astronomers have found a direct
relationship between the mass of the black hole in such a galaxy and the
mass of its central bulge. However, it is unclear whether small galaxies
contain smaller black holes, and their discovery may lead to new insights
about the impact of black holes on galaxy formation. As Greene stated, "In
recent years, we have been detecting black holes with masses between
100,000 and a few million times the mass of the Sun, but less massive
objects have been exceptionally difficult to find."

Based on observations with optical telescopes, Karl Gebhardt of the
University of Texas at Austin, R. Michael Rich of UCLA, and Ho, suggested
in 2002 that the globular cluster G1 in the Andromeda Galaxy (M31)
contains a compact concentration of mass that is intermediate in mass
between stellar and supermassive black holes. Other researchers disputed
that conclusion. According to Ho, "In 2005, we obtained better data that
clinched the case that the cluster really does contain a dark object with
20,000 times the mass of the Sun. What we can't be sure of, however, is
whether the dark mass is a single object -- that is, an intermediate-mass
black hole -- or a cluster of smaller dark objects such as neutron stars
or stellar-sized black holes."

"Since this globular cluster, G1, is by far the best candidate for
containing such an intermediate-mass black hole, we felt it was important
to help resolve the question," Ho added.

Last year, researchers detected X-rays emitted from G1. That allowed
Ulvestad and his team to apply a test that could distinguish between an
intermediate-mass black hole and the smaller compact objects. Astronomers
have found that, for a given X-ray brightness, a supermassive black hole
is much brighter at radio wavelengths than a stellar-mass black hole.

Using the VLA, Ulvestad, Greene and Ho found that the radio brightness of
G1 was between what would be expected for a stellar-mass black hole and
what would be expected for a supermassive one. "The radio brightness
nicely fits the prediction for a 20,000-solar-mass black hole," Ulvestad
said.

Some globular clusters in our own Milky Way galaxy are suspected to
contain black holes with masses just a few hundred times the mass of the
Sun. These may be detected when the Expanded VLA, with much greater
sensitivity than the current telescope, comes on line soon after 2010.
"With this capability, we could close the gap between black holes with
masses 10 times that of the Sun and those with masses more than 10,000
times that of the Sun," Ulvestad said. "This should lead to a greater
understanding of their importance as stepping stones toward the most
massive black holes we observe in the centers of many galaxies."

The National Radio Astronomy Observatory is a facility of the National
Science Foundation, operated under cooperative agreement by Associated
Universities, Inc.


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