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How to build a midsize black hole.

Colliding giant stars in dense clusters could create a whole new type of object.

MOTHER NATURE usually makes objects in a steady continuum of sizes. But until recently, black holes seemed divided into two distinct classes: stellar-mass holes containing roughly 5 to 20 solar masses formed by the collapse of stars, and super-massive beasts weighing millions or billions of solar masses, formed by vast amounts of matter collecting at the centers of galaxies. There seemed to be nothing in between.

In the past few years, however, astronomers have identified X-ray sources with luminosities and other characteristics expected of black holes that would fill in the gap, containing a few hundred to a few thousand solar masses. But there was a problem. How would such intermediate-mass black holes form?

In the April 14th Nature, an international team led by Simon Portegies Zwart (University of Amsterdam, Netherlands) identifies one possible avenue: stellar collisions in the heart of dense young star clusters. Using the GRAPE-6 supercomputer in Japan, the team simulated stellar motions in MGG-11, a rich cluster in the galaxy M82 in Ursa Major. A bright X-ray source that appears to be an intermediate-mass black hole lies very close to MGG-11.

In the simulation, gravitational interactions cause high-mass stars to sink to the cluster's center within 4 million years, before they have a chance to explode as supernovae. The cluster's core becomes so dense that stars collide and merge, forming a monstrous star with 800 to 3,000 solar masses. "That star quickly collapses to form a black hole of similar mass," says Portegies Zwart.

His group also simulated a more massive but larger M82 cluster, MGG-9, which exhibits no bright X-ray source and is therefore unlikely to contain a midsize black hole. The computer models indeed failed to produce such a black hole in this cluster, even though the two clusters have similar stellar densities. In MGG-9, low-mass stars formed a wake behind massive stars, creating a drag force that slowed their motions toward the center.

"The main reason that MGG-9 cannot produce an intermediate-mass black hole via the same process is that the most massive stars go supernova before they reach the cluster center," says Portegies Zwart. "This prevents them from colliding with one another."

"The novel part of this paper is not that one can form intermediate-mass black holes in star clusters in this particular way; that was known already," comments Roeland P. van der Marel (Space Telescope Science Institute). "The important result is that it makes a connection between a luminous X-ray source and a theoretical model for intermediate-mass black-hole formation in a cluster. In particular, it shows that the cluster coincident with the M82 source actually has the right parameters to form an intermediate-mass black hole."

These middleweight black holes might help explain the origin of the supermassive beasts in galaxy cores. Once an intermediate-mass hole forms, it will migrate to the center of its galaxy due to gravitational interactions with lighter stars. Once there, it can become the seed for an even more massive hole. "Intermediate-mass black holes are certainly a plausible starting product or intermediate state toward a supermassive black hole," says van der Marel.

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Author:Naeye, Robert
Publication:Sky & Telescope
Geographic Code:1USA
Date:Aug 1, 2004
Words:530
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