Holy Jupiter: There are
Billions of them!
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Media Release - School of Physics
- UNSW
Friday January 18th 2001
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Research by UNSW astronomers indicates that Jupiter, the largest
planet in our Solar System, is a typical example of the largest
planets around other stars. This helps answer the question: Are
there billions of other planetary systems like ours scattered through
the Universe, or do we live in a unique system of planets?
Scientists at the Anglo-Australian Telescope and other astronomical
observatories around the world have been scanning the sky for tell-tale
signs of planets around nearby stars. So far these planet hunters
have found 74 extra-solar planets orbiting 66 nearby stars (some
stars have two known planets; one has three).
A
new analysis of these planets by two UNSW astronomers gives us the
clearest indication yet of where our own Solar System fits in the
universe.
According to Dr Charles Lineweaver, a researcher in UNSW's School
of Physics, and Daniel Grether, an Honours student, Jupiter seems
to be a typical planet - much more typical than indicated by previous
analyses.
In their paper, cited at this week's meeting of the American Astronomical
Society and in the next issue of Science magazine, Dr Lineweaver
and Mr Grether analysed the latest data on the masses and orbital
periods of all the recently detected extra-solar planets. They carefully
edited the data to correct for the limitations of the detection
techniques, which are not yet able to detect Jupiter-sized planets.
"Although Jupiter-like planets taking 12 years to orbit their host
star have not yet been detected, we were able to make a simple extrapolation
of the trends identified in the current data," Dr Lineweaver said.
"Correcting for the limitations of the detectors in a simple new
way gave us the result that Jupiter is not an exceptional planet.
Jupiter-like planets are 50 per cent more common than indicated
by previous analyses.
"If someone like us were doing a similar survey from one of these
other planets, using instruments as sensitive as ours, and looked
at our Sun, they would not yet have found evidence of any of our
planets. Planet hunters should begin to find Jupiter-like extra-solar
planets within the next few years," he said.
The existence of the 74 planets has been inferred from 'wobbles'
in the positions of the 66 host stars as each star and its planet,
or planets, orbit their common centres of gravity.
The bigger the planet and the shorter its 'year', or orbital period,
the easier it is to detect, so only planets much bigger than Jupiter
or in closer orbits than Jupiter have been detected so far. Jupiter
is twice as massive as all other planets in our Solar System combined.
"Similar analyses to answer the question 'How typical is Earth?'
cannot yet be done using this technique, but our larger estimate
for the number of Jupiter-like planets suggests a similarly larger
estimate for the number of Earth-like planets," Dr Lineweaver said.
Dr Lineweaver is an Australian Research Council Research Fellow
in UNSW's School of Physics. Daniel Grether is about to begin a
PhD under Dr Lineweaver's supervision, in which he will continue
to analyse new data on extra-solar planetary systems.
A
preprint of their paper, recently submitted to the new journal Astrobiology,
is available at http://xxx.adelaide.edu.au/abs/astro-ph/0201003
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Further Information
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Contact
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CONTACT DETAILS:
Dr Charles Lineweaver, tel. 9385 5168 (UNSW) or 9457 0372 (after
hours).
He will be delivering a paper on the role of neutrinos in cosmology
at a conference in New Zealand from 20 to 26 January but should
be contactable by
E-mail: charley@bat.phys.unsw.edu.au
Date issued: 18 January 2002
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