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University of California-Los Angeles

Contact:
Stuart Wolpert, stuartw{at}college.ucla.edu, 310-206-0511

June 5, 2003

Million-star Cluster in Nearby Galaxy, Thousands of Violent 'O' Stars
and Gravity-Bound Gas Reported by UCLA Astronomers, Colleagues

A small, bizarre cluster of a million young stars, enshrouded in
thick gas and dust in a nearby dwarf galaxy, has been confirmed by
Jean Turner, UCLA professor of physics and astronomy, and her
colleagues, in the June 5 issue of the journal Nature.

Turner and her colleagues estimate that the stars are still in the
process of forming, and are less than a million years old --
extremely young by astronomical standards.

The cluster contains more than 4,000 massive "O" stars, each a
million times brighter than our sun, with more than 30 times the mass
of our sun. "O" stars blow off violent winds, and are the most
luminous of all known stars. These "O" stars will become supernovae
and explode at the end of their lives, but none has done so yet.

"This is the first time such a large cluster of 'O' stars, bound with
its natal gas, has been observed anywhere in the universe," Turner
said. "These 'O' stars should not fit in this small region, yet
somehow they do." 

The research is federally funded by the National Science Foundation.

The star cluster is buried within a "supernebula" consisting of hot
gases in the galaxy NGC 5253, in the southern part of the sky,
slightly above the horizon, in the constellation Centaurus. The
supernebula is hidden from optical view by its own gases.

The astronomers used the Keck Observatory's Near Infrared
Spectrometer, an instrument built by Turner's UCLA astronomy
colleague, professor Ian McLean, to study the star cluster.

The stars are packed tightly in a region only three light years
across -- less than the distance from our sun to its closest neighbor
star, Turner said. 

The star cluster is surrounded by thick gases that move faster than
100,000 miles per hour -- faster than the speed of sound -- yet they
are trapped by gravity. 

"The dense gases are bound by the enormous gravity of the cluster,
which makes this cluster different from any other known young
cluster," Turner said. "It's truly a unique object. I originally
titled this paper, 'Supernebula in Gravitational Bondage.' Clusters
in our galaxy are not nearly as massive and cannot trap their gas."

In the Milky Way, globular clusters containing hundreds of thousands
of stars are billions of years old, having formed early in our
galaxy's history. Some astronomers had believed globular clusters
could form only in the early universe, yet this nearby galaxy is
forming globular clusters. 

"It's a mystery why this tiny galaxy can form globular clusters at
the present time and the Milky Way can't," Turner said. "We hope to
be able to solve this mystery. How a million stars can form in such a
small region is also a mystery." 

The cluster has one billion times the luminosity of our sun, but is
invisible in ordinary light. Turner's team detected the cluster using
infrared and radio observations. The astronomers detected the radio
emission of the object in 1996, but needed the new infrared analyses
to exclude possibilities other than the star cluster, and to see that
the gases are trapped by gravity, Turner said. 

Turner and her colleagues -- Sara Beck, astronomy professor at Tel
Aviv University's School of Physics and Astronomy in Israel; former
UCLA astronomy graduate students Lucian Crosthwaite and David Meier;
James Larkin, assistant professor of physics and astronomy at UCLA;
and Ian McLean, professor of astronomy at UCLA -- analyzed infrared
hydrogen spectra from NGC 5253, a galaxy that contains hundreds of
large star clusters. 

Turner and her colleagues will look for other examples of young star
clusters, and hope to learn more about star formation within this
cluster, using infrared and radio emissions.

"We haven't observed this type of start formation before," Turner
said. "This globular cluster is invisible to ultraviolet telescopes,
and could remain invisible for most of its star-forming lifetime."

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