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‘RAVE’ to reveal Galaxy's history

3 June 2003
Clues to how galaxies formed in the early Universe lie right under our
nose - in our own Galaxy. The Galaxy formed by the accretion of
infalling satellite galaxies, many astronomers think. Theoretical models
of the formation of galaxies predict such a scenario.

But not all astronomers are convinced yet and the topic is still
controversial.

Now researchers from eleven countries have launched an ambitious project
to reconstruct our Galaxy's history by gathering key components of
motion and chemical compositions for its apparently brightest 50 million
stars.

RAVE (RAdial Velocity Experiment) is an all-sky stellar spectroscopy
survey just started on the 1.2-m UK Schmidt telescope in eastern Australia.

Projects such as Hipparcos and Tycho have accurately measured the
positions and proper motions - movement across the sky - of more than
2.5 million stars.

But to get a complete picture of stellar motions, and thus to enable
astronomers to reconstruct the structure and formation history of our
Galaxy, they also need radial velocities - the movement of stars towards
or away from the observer. And before RAVE began only about 20,000
stellar radial velocities were in the archives.

RAVE will be able to achieve velocities accurate to within 2 kms-1 -
about 1% of the speed at which stars typically move in the Galaxy.

"With this accuracy and this number of radial velocities we will be able
to identify dozens, perhaps hundreds, of streams of stars in the solar
vicinity. The streams represent debris from disrupted old satellite
galaxies now engulfed by our Galaxy," said Professor Matthias Steinmetz,
Director at the Astrophysical Institute Potsdam and leader of the RAVE
science team.

Even after plunging into our Galaxy, the stars of a satellite galaxy
continue to move as a coherent group, and can be identified by their
common velocity even after billions of years. However, only a very few
of those disrupted satellites have been identified to date.

RAVE will also gather the chemical compositions of stars. These should
help show which widely separated stars were formed at a common site.
They should also determine whether these stars have been formed before
or after the satellite galaxy of which they were a part broke up.

"RAVE will help us decide between competing models for the formation of
the various structures of the Galaxy, such as the central bulge of stars
and the so-called 'thick disk'," said Steinmetz.

"For a survey such as this, field of view is more important than
aperture. The UK Schmidt telescope is a perfect tool for this work,"
said Professor Brian Boyle, Director of the Anglo-Australian
Observatory, which operates the telescope. The field of view of the UK
Schmidt telescope covers an area more than 100 times larger than that of
the Moon.

RAVE's initial pilot phase is being carried out with the 6dF (six-degree
field) instrument on the UK Schmidt. Designed and built by the
Anglo-Australian Observatory, the 6dF instrument is a 'pick and place'
robot that positions 150 fibres on the telescope's focal plane.

Using 6dF, astronomers can collect up to 600 stellar spectra per night.
And by 2005 they plan to have 100,000 - five times as many as have been
measured since Hermann Carl Vogel started such work at the Astrophysical
Observatory Potsdam in 1888.

In 2006 the pace of data collection will pick up even further, when 6dF
instrument is replaced by a radical new instrument from the AAO -
UKidna, with 2250 fibres mounted on independently movable spines.

"With UKidna we'll be taking up to 22,000 spectra on a clear night,"
said Boyle.

"Then we'll be able to push beyond our local Galactic neighbourhood, out
into the furthest corners of the Milky Way," said Professor Rosie Wyse
of Johns-Hopkins University in Baltimore.

As well as uncovering the history of our Galaxy, RAVE will establish a
huge database of stellar spectra - by far the largest to date.

"This will be a vast resource for studies of the properties and
evolution of stars," said Professor Ulisse Munari of the Padova
Observatory in Asagio.

With its large database of stellar spectra RAVE will also provide an
ideal training set for the design of future space missions such as the
European Space Agency's cornerstone mission GAIA, which will attempt to
measure positions and velocities of up to a billion stars in the Milky Way.

------------------------------------------------------------------------

The Anglo-Australian Observatory operates the Anglo-Australian and UK
Schmidt telescopes on behalf of the astronomical communities of the UK
and Australia. The Observatory is funded by the UK Government, through
the Particle Physics and Astronomy Research Council, and the Australian
Government, through the Department of Education, Science and Training.

------------------------------------------------------------------------

FOR MORE INFORMATION:

PUBLIC  INFORMATION OFFICERS

Helen Sim
Public Relations and Media Liaison
Anglo-Australian Observatory, Australia
hsim@aaoepp.aao.gov.au
Phone: +61 2-9372-4251   

Matthias Hassenpflug
Public Outreach
Astrophysikalisches Institut Potsdam, Germany
mhassenpflug@aip.de
Phone: +49 331-7499-366


RESEARCHERS

Brian Boyle
Anglo-Australian Observatory, Australia
director@aaoepp.aao.gov.au
Phone: +61 2-9372-4812   

Rosie Wyse
Johns-Hopkins University Baltimore, USA
wyse@pha.jhu.edu
Phone: +1 410-516-5392

Matthias Steinmetz
Astrophysikalisches Institut Potsdam, Germany
msteinmetz@aip.de
Phone: +49 331-7499-381   

Ulisse Munari
Padova Astronomical Observatory in Asiago, Italy
munari@pd.astro.it
Phone: +39 0424-6000-33


PARTICIPATING INSTITUTIONS

The RAVE project involves researchers from:

Australia:
Anglo-Australian Observatory, Mt-Stromlo Observatory, Swinburne
University, Macquarie University

Canada
University of Victoria

France
Observatoire de Strasbourg

Germany
Astrophysical Institute Potsdam, Astronomisches Rechen-Institut Heidelberg

Italy
Astronomical Observatory of Padova

Japan
National Astronomical Observatories of Japan, University of Tokyo

Netherlands
Kapteyn Astronomical Institute, University of Groningen

Slovenia
University of Ljubljana

Switzerland
University of Basel

United Kingdom
University of Cambridge, University of Oxford, University of Edinburgh

United States of America
University of Arizona, Johns-Hopkins University Baltimore, University of
Rochester
------------------------------------------------------------------------

Helen Sim
Public Relations and Media Liaison
CSIRO Australia Telescope National Facility (email: Helen.Sim@csiro.au)
and
Anglo-Australian Observatory (email: hsim@aaoepp.aao.gov.au)
National Organising Committee, IAU 25th General Assembly
Tel: +61-2-9372-4251
Mob: +61-419-635-905