UK scientists sift superfine stardust (Forwarded)
- From: Andrew Yee <ayee@xxxxxxxxxxxxxxxxxxxxxx>
- Date: Tue, 24 Apr 2007 19:24:11 -0400
Royal Astronomical Society
London, U.K.
Issued by RAS Press Officers:
Robert Massey
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AND
Anita Heward
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NATIONAL ASTRONOMY MEETING PRESS ROOM (16 - 20 APRIL ONLY):
Tel: +44 (0)1772 892 613
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CONTACT:
Dr John Bridges
Space Research Centre
Dept. of Physics & Astronomy
University of Leicester
University Road
Leicester
LE1 7RH
UK
Tel: +44 (0) 116 252 2007
Fax: +44 (0) 116 252 2464
From 16-18th April, Dr Bridges can be contacted via the NAM press office(see top of release for details).
PRESS INFORMATION NOTE: RAS PN 07/23 (NAM19)
EMBARGOED FOR 00:01 BST, WEDNESDAY, 18 APRIL 2007
UK SCIENTISTS SIFT SUPERFINE STARDUST
UK scientists are preparing to analyse miniscule impact craters collected by
NASA's Stardust mission as it flew through interstellar dust streams. These
craters contain the residues of the dust particles that are the seeds of our
own Solar System.
A UK consortium of researchers from the University of Leicester, Natural
History Museum, Kent University, Glasgow University and Open University have
been studying the cometary samples which were delivered a few weeks after
the samples were returned to Earth. The interstellar dust particles are
about ten nanometres across (one hundred thousandth of a millimetre) and
they are even smaller than many of the particles that Stardust collected
when it flew through the coma of Comet Wild 2.
In a presentation at the Royal Astronomical Society's National Astronomy
Meeting in Preston on 18th April, Dr John Bridges from the University of
Leicester will describe how techniques developed to analyse material from
the comet's tail will be used to study the interstellar particles. A
focussed beam of electrically charged particles will be used to extract the
residue of the dust from the craters. Once the material is no longer
shielded by the crater walls, it can be examined using a transmission
electron microscope.
"The interstellar dust particles collected by Stardust are so tiny that they
pose huge analytical challenges," said Dr Bridges. "Having spent the time
perfecting our techniques and analysing Comet Wild 2, we are very excited by
the prospect of these samples. Our analysis of samples from the comet's tail
revealed that its composition was more complex than we'd thought and
indicated an unexpected mixing of refractory and volatile material in the
early Solar System. The interstellar particles will take us one step
farther back and allow us to look at the composition of the dust cloud from
which the Solar System formed."
The Stardust mission spent 4 months collecting interstellar dust during its
2.88 million mile journey to Comet Wild-2 and back to Earth. The return
capsule, containing the dust and samples from the comet's tail, landed in
the desert in Utah in January 2006. Since then, samples have been
distributed to selected researchers around the world.
FURTHER INFORMATION
The Stardust Mission
Stardust, a project under NASA's Discovery Program of low-cost, highly
focused science missions, was built by Lockheed Martin Space Systems,
Denver, Colorado, and is managed by the Jet Propulsion Laboratory, Pasadena,
Calif., for NASA's Office of Space Science, Washington, D.C. JPL is a
division of the California Institute of Technology in Pasadena. The
mission's Principal Investigator is Dr. Donald Brownlee of the University of
Washington in Seattle, WA. UK involvement is funded by the Science and
Technology Facilities Council.
More information on the Stardust mission is available at
http://stardust.jpl.nasa.gov/home/index.html
NOTES FOR EDITORS
Royal Astronomical Society's National Astronomy Meeting
The RAS National Astronomy Meeting is the UK's premier meeting for the
astronomy, solar system and space science communities. The RAS-NAM 2007 is
hosted by the University of Central Lancashire and is joined by the UK Solar
Physics and Spring MIST meetings. It is sponsored by the Royal Astronomical
Society, the UK Science and Technology Facilities Council and the University
of Central Lancashire.
IMAGES
An image of a residue-bearing impact crater from a Stardust foil can be
found at
http://www.ras.org.uk//index.php?option=com_content&task=view&id=1179
.
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