Media Release
3 June 2008
Smallest planet recorded
Astronomers have discovered a tiny star with its own planet, 3000 light years away.
The star, the planet’s equivalent of the Sun, is the smallest star on record to have an orbiting planet. It has a mass
about 6% of our sun and is so small it may be incapable of producing energy by nuclear reactions. The planet is slightly
larger than Earth, has a smaller orbital radius, similar to Venus, and, due to the small size of the star, is likely to
be colder than Pluto.
The discovery was made by the Japan-New Zealand Microlensing Observations in Astrophysics (MOA) collaboration. A paper
describing the result has been accepted for publication in the Astrophysical Journal, and the result is being presented
today at the American Astronomical Society Annual Meeting in St Louis.
The star is a brown dwarf, and is likely to be up to one million times fainter than the Sun, leaving the planet’s
atmosphere colder than Pluto. However, its location favours the presence of a massive atmosphere underlain by a deep
ocean on its surface. It is possible that interior heating by radioactive decay would be sufficient to maintain the
ocean at liquid temperature, yielding a possible habitat for life.
“The discovery indicates that that even the lowest mass stars can host planets” says Dr David Bennett of Notre Dame
University in the US, the sole member of the MOA collaboration not from New Zealand or Japan. “Planets have not
previously been found orbiting stars with masses less than about 20% of that of the Sun, but this finding suggests that
we can expect to find other very low-mass stars to have planets with a mass similar to that of the Earth.”
The discovery was made possible by the new Japanese-funded MOA telescope at Mt John Observatory in Canterbury. This is
the world’s largest telescope dedicated to gravitational microlensing which takes advantage of the fact that, as
Einstein predicted, a star warps the space surrounding it, enabling the star to act like a giant magnifying glass. The
telescope is equipped with a state-of-the-art CCD imaging camera capable of imaging an area of sky 13 times the size of
the full Moon in a single exposure. With this powerful setup, the MOA collaboration is able to find rare instances where
the magnification caused by gravitational microlensing is very high, and the sensitivity to planets enhanced.
Dr Ian Bond of Massey University leads the sophisticated computer analysis needed at the Mt John Observatory. He notes
“the new MOA telescope-camera system is a superb instrument that can monitor an area of the sky containing more than 50
million stars in searching for these rare planetary microlensing events. We could not have made this discovery without
it”.
The vast amount of data generated was analysed at several contributing institutions, including The University of
Auckland. Undergraduate student Yvette Perrott carried out important computations for the discovery that confirmed the
low masses of both the host star and the orbiting planet.
The MOA group is made up of astronomers from Nagoya University, Konan University, Nagano National College of Technology,
and Tokyo Metropolitan College of Aeronautics in Japan, as well as Massey University, The University of Auckland, Mt
John Observatory, the University of Canterbury, Victoria University in New Zealand, as well as Dr David Bennett of Notre
Dame University. Additional astronomers included the Warsaw University Observatory in Poland, the Universidad de
Concepción in Chile, the University of Cambridge, UK, the Institut d’Astrophysique de Paris, the Observatoire
Midi-Pyr´en´ees, the Observatoire de Paris in France, the European Southern Observatory in Chile, and Heidelberg
University in Germany.
ends