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Era Of Galaxy And Black Hole Growth Spurt Discovered

This illustration shows two young galaxies in the process of merging. The merger has triggered a prodigious burst of star formation and is providing fuel for the growth of the galaxies' central supermassive black holes. The inset shows an image from the Chandra Deep Field-North of two central black holes in merging galaxies (known as SMG 123616.1+621513). Although the black holes appear to be very close in this image, they are actually about 70,000 light years apart. The different colors in the image are due to differences in X-ray absorption by gas and dust around the black holes with blue indicating more absorption than red. Credit: X-ray: NASA/CXC/IoA/D.Alexander et al.; Illustration: CXC/M.Weiss.
  • See larger image.
  • Cambridge, UK (SPX) Apr 07, 2005
    Distant galaxies undergoing intense bursts of star formation have been shown by NASA's Chandra X-ray Observatory to be fertile growing grounds for the largest black holes in the Universe.

    Collisions between galaxies in the early Universe may be the ultimate cause for both the accelerated star formation and black hole growth.

    By combining the deepest X-ray image ever obtained with submillimeter and optical observations, an international team of scientists has found evidence that some extremely luminous adolescent galaxies and their central black holes underwent a phenomenal spurt of growth more than 10 billion years ago.

    This concurrent black hole and galaxy growth spurt is only seen in these galaxies and may have set the stage for the birth of quasars - distant galaxies that contain the largest and most active black holes in the Universe.

    "The extreme distances of these galaxies allow us to look back in time, and take a snapshot of how today's largest galaxies looked when they were producing most of their stars and growing black holes," said David Alexander of the University of Cambridge, UK.

    Alexander is lead author of a paper appearing in the April 7, 2005 issue of Nature that describes this work.

    The galaxies studied by Alexander and his colleagues are known as submillimeter galaxies, so-called because they were originally identified by the James Clerk Maxwell submillimeter telescope (JCMT) on Mauna Kea, Kailua, Hawaii.

    The submillimeter observations along with optical data from the Keck observatory, also on Mauna Kea, indicate these galaxies had an unusually large amount of gas.

    The gas in each galaxy was forming into stars at a rate of about one per day, or 100 times the present rate in the Milky Way galaxy. The Chandra X-ray data show that the supermassive black holes in the galaxies were also growing at the same time.

    These galaxies are very faint and it is only with the deepest observations of the Universe that they can be detected at all.

    "The deeper we look into the Universe with Chandra, the more fascinating things we find. Who knows what nature has in store for us as we push the boundaries even further," says Niel Brandt of Penn State University, University Park.

    The X-ray observations also showed that the black holes are surrounded by a dense shroud of gas and dust. This is probably the material that will be consumed by the growing black holes.

    Hubble Space Telescope observations indicate that most of the submillimeter galaxies are actually two galaxies that are colliding and merging.

    Recent sophisticated computer simulations performed by Tiziana Di Matteo of Carnegie Mellon University in Pittsburgh, Penn., and her collaborators have shown that such mergers drive gas toward the central regions of galaxies, triggering a burst of star formation and providing fuel for the growth of a central black hole.

    "It is exciting that these recent observations are in good agreement with our simulation. We seem to be converging on a consistent picture of galaxy formation with both observations and theory."

    Said Di Matteo, In particular, this work will help scientists to understand the observed link in the present epoch between the total mass of stars in the central bulges of large galaxies and the size of their central, supermassive black holes.

    The JCMT is operated on behalf of the United Kingdom, Canada and Netherlands by the Joint Astronomy Centre, Hilo, Hawaii.

    With its 15-meter (50-foot) diameter dish the JCMT detects light with "submillimeter" wavelengths, between infrared light and radio waves on the wavelength scale.

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    Distant "Super-Starburst" Galaxies Hide Active Black Holes
    Birmingham, UK (SPX) Apr 05, 2005
    A team of European scientists has used Virtual Observatories to compare observations of distant "starburst" galaxies made at radio and X-ray wavelengths.



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