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  • Survey Finds Dark Accelerators

    Universe Today
    March 28 2005

    Survey Finds Dark Accelerators

    Summary - (Mar 28, 2005) A team of European astronomers has found
    some unusual objects in the central part of our galaxy which are
    emitting very high-energy gamma rays. What's strange, though, is
    these objects are invisible in the optical and X-ray spectra. So what
    they are is a complete mystery. Not only that, but these objects are
    also quite large; possibly on the order of several light years
    across. The observations were done using the High Energy Stereoscopic
    System (H.E.S.S.) telescopes in Namibia.

    Full Story - In the March 25th 2005 issue of Science Magazine, the
    High Energy Stereoscopic System (H.E.S.S.) team of international
    astrophysicists, including UK astronomers from the University of
    Durham, report results of a first sensitive survey of the central
    part of our galaxy in very high energy (VHE) gamma-rays. Included
    among the new objects discovered are two 'dark accelerators' -
    mysterious objects that are emitting energetic particles, yet
    apparently have no optical or x-ray counterpart.

    This survey reveals a total of eight new sources of VHE gamma-rays in
    the disc of our Galaxy, essentially doubling the number known at
    these energies. The results have pushed astronomy into a previously
    unknown domain, extending our knowledge of the Milky Way in a novel
    wavelength regime thereby opening a new window on our galaxy.

    Gamma-rays are produced in extreme cosmic particle accelerators such
    as supernova explosions and provide a unique view of the high energy
    processes at work in the Milky Way. VHE gamma-ray astronomy is still
    a young field and H.E.S.S. is conducting the first sensitive survey
    at this energy range, finding previously unknown sources.

    Particularly stunning is that two of these new sources discovered by
    H.E.S.S. have no obvious counterparts in more conventional wavelength
    bands such as optical and X-ray astronomy. The discovery of VHE
    gamma-rays from such sources suggests that they may be `dark
    accelerators', as Stefan Funk from the Max-Planck Institut in
    Heidelberg affirms: "These objects seem to only emit radiation in the
    highest energy bands. We had hoped that with a new instrument like
    H.E.S.S. we would detect some new sources, but the success we have
    now exceeds all our expectations."

    Dr Paula Chadwick of the University of Durham adds "Many of the new
    objects seem to be known categories of sources, such as supernova
    remnants and pulsar wind nebulae. Data on these objects will help us
    to understand particle acceleration in our galaxy in more detail; but
    finding these 'dark accelerators' was a surprise. With no counterpart
    at other wavelengths, they are, for the moment, a complete mystery."

    Cosmic particle accelerators are believed to accelerate charged
    particles, such as electrons and ions, by acting on these particles
    with strong shock waves. High-energy gamma rays are secondary
    products of the cosmic accelerators and are easier to detect because
    they travel in straight lines from the source, unlike charged
    particles which are deflected by magnetic fields. The cosmic
    accelerators are usually visible at other wavelengths as well as VHE
    gamma rays.

    The H.E.S.S. array is ideal for finding these new VHE gamma ray
    objects, because as well as studying objects seen at other
    wavelengths that are expected to be sources of very high energy gamma
    rays, its wide field of view (ten times the diameter of the Moon)
    means that it can survey the sky and discover previously unknown
    sources.

    Another important discovery is that the new sources appear with a
    typical size of the order of a tenth of a degree; the H.E.S.S.
    instrument for the first time provides sufficient resolution and
    sensitivity to see such structures. Since the objects cluster within
    a fraction of a degree from the plane of our Galaxy, they are most
    likely located at a significant distance - several 1000 light years
    from the sun - which implies that these cosmic particle accelerators
    extend over a size of light years.

    The results were obtained using the High Energy Stereoscopic System
    (H.E.S.S.) telescopes in Namibia, in South-West Africa. This system
    of four 13 m diameter telescopes is currently the most sensitive
    detector of VHE gamma-rays, radiation a million million times more
    energetic than the visible light. These high energy gamma rays are
    quite rare - even for relatively strong sources, only about one gamma
    ray per month hits a square meter at the top of the earth's
    atmosphere. Also, since they are absorbed in the atmosphere, a direct
    detection of a significant number of the rare gamma rays would
    require a satellite of huge size. The H.E.S.S. telescopes employ a
    trick - they use the atmosphere as detector medium. When gamma rays
    are absorbed in the air, they emit short flashes of blue light, named
    Cherenkov light, lasting a few billionths of a second. This light is
    collected by the H.E.S.S. telescopes with big mirrors and extremely
    sensitive cameras and can be used to create images of astronomical
    objects as they appear in gamma-rays.

    The H.E.S.S. telescopes represent several years of construction
    effort by an international team of more than 100 scientists and
    engineers from Germany, France, the UK, Ireland, the Czech Republic,
    Armenia, South Africa and the host country Namibia. The instrument
    was inaugurated in September 2004 by the Namibian Prime Minister,
    Theo-Ben Guirab, and its first data have already resulted in a number
    of important discoveries, including the first astronomical image of a
    supernova shock wave at the highest gamma-ray energies.

    Original Source: PPARC News Release

    http://www.universetoday.com/am/publish/dark_accelerators.html?2832005
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