[Skip to Content]

AAO

General Links
Professional Links
Australian Human Resources Institute Diversity Awards 2013 Finalist
Media assistance: Helen Sim 
+61-(0)2-9372-4251 (office)
+61-(0)419-635-905 (mob.)
hsim@aaoepp.aao.gov.au

Researcher contacts at end 

Images
http://www.aao.gov.au/press/rave_data_release


10 February 2006


EMBARGOED until 0100 AEST 11 February 2006


Star Treks: the untold story

Some people are born, live and die in the one village. Others cross the world to new homes. Stars do the same. Our Galaxy is a melting-pot of stars from different places.

A team of Australian astronomers and their overseas colleagues have today [Saturday 11 Feb. AEST] released data on 25 000 stars to the rest of the astronomical community — data that will help sort the travellers from the stay-at-homes, and unravel the history of the Galaxy.

“Some stars were formed in our Galaxy. Others were originally in small galaxies that have been swallowed by ours. By measuring their chemistry, and tracing their speeds and directions, we can learn which stars came from where,” said Dr Quentin Parker of Macquarie University and the Anglo‐Australian Observatory, and head of the RAVE Data Management Team.

“It's like tracing how people have migrated all over the world, using genetic markers.”

The research program, called RAVE (Radial Velocity Experiment) has collected the chemical compositions and velocities (speeds) of about 90 000 stars to date — the 25 000 being released today and another 65 000 still being rigorously checked.

Even these first 25 000 measurements are more than all the stellar velocities measured in the previous century.

Ultimately the astronomers plan to build a database of a million individual stars.

To do this over just a few years they need to measure lots of stars simultaneously. And for that they've turned to the Anglo-Australian Observatory's 1.2‐m UK Schmidt telescope at Siding Spring Observatory in central New South Wales, Australia.

“The Schmidt is a really wide‐eyed telescope. It can see a patch of sky six degrees across — that's like 12 full moons lined up in a row,” said Professor Fred Watson, RAVE Project Manager and Astronomer‐in‐Charge at the Anglo‐Australian Telescope.

The telescope is coupled with the AAO's ‘six‐degree field’ (6dF) spectrograph, which analyses the stars' light. The 6dF system can capture the spectra of up to 150 stars simultaneously. From the spectra the astronomers determine the stars' velocities, chemical composition, temperature and gravitational strength.

The system can measure up to 700 stars a night.

The data release was announced at the Local Group Cosmology meeting in Aspen, Colorado, by the leader of the RAVE collaboration, Professor Matthias Steinmetz of the Astrophysical Institute Potsdam [sic] in Germany.

The RAVE team comprises 55 researchers from 10 countries (Australia, Canada, France, Germany, Italy, The Netherlands, Slovenia, Switzerland, the UK and the USA).


Researcher contacts

Dr Quentin Parker
Macquarie University and Anglo-Australian Observatory
(Head of RAVE Data Management Team)
+61-2-4800-4840 (AAO office, Sydney)
+61-2-9850-8910 (Macquarie University, Sydney)
+61-(0)408-640-092 (mob.)
qap@physics.mq.edu.au

Professor Fred Watson
Anglo-Australian Observatory
(RAVE Project Manager)
Contact via Helen Sim
Mob: 0419 635 905
Office tel: 02 9372 4251
Email: hsim@aao.gov.au


Professor Joss Hawthorn
Anglo-Australian Observatory
(RAVE team member)
Currently at the Local Group Cosmology meeting at the Aspen Center for Physics, Aspen, Colorado, USA. Tel +1-(970)-925-2585
jbh@aaoepp.aao.gov.au

Professor Ken Freeman
Research School of Astronomy and Astrophysics, The Australian National University
(RAVE Science Coordinator)
Currently holidaying in Western Australia
+61-(0)402-134-289 (mob.)
kcf@mso.anu.edu.au


Main RAVE webpage

http://www.rave-survey.aip.de/rave/

Images and captions

http://www.aao.gov.au/press/rave_data_release/



ody>