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Microlensing Technique Reveals Small, Rocky Extrasolar Planet
Microlensing Technique Reveals Small, Rocky Extrasolar Planet
26 Jan 2006
(Source: University of Notre Dame)

David Bennett, a University of Notre Dame astrophysicist, is a member of an international team of astronomers that has discovered a potentially rocky, icy body that may be the smallest and coolest extrasolar planet yet found.

The discovery was made using a technique called 'gravitational microlensing,' which may be an exceptional technology for finding distant planets with traits that could support life.

The planet, officially known as 'OGLE-2005-BLG-390Lb,' is located more than 20,000 light years away in the constellation Sagittarius, close to the center of our Milky Way galaxy. It orbits a red star five times less massive than our sun about once every 10 years and has a likely surface temperature of -364 degrees Fahrenheit (-200 degrees Celsius). Although it has a thin atmosphere, like the Earth, the planet?s rocky surface is probably deeply buried beneath frozen oceans.

Researchers doubt that the cold body could sustain organisms, but believe that gravitational microlensing will present opportunities for observing other rocky planets in the 'habitable zones' of stars, where temperatures are perfect for maintaining liquid water and spawning life.

An OGLE (Optical Gravitational Lensing Experiment) project telescope discovered the lensing event on July 11, 2005. In an attempt to catch microlensing events as they occur, OGLE scans most of the central Milky Way each night, discovering more than 500 microlensing events each year. To detect the signature of low-mass planets, astronomers must observe these events much more frequently than once per night. OGLE, with only a single telescope, cannot do so without compromising the event discovery rate.

When the July 11 event emerged, the OGLE Early Warning System alerted fellow astronomers across the globe to OGLE-2005-BLG-390 (BLG for galactic bulge, 390 for the 390th such event discovered by OGLE in 2005). PLANET (Probing Lensing Anomalies NETWork) and RoboNet telescopes collect observations more frequently in an attempt to detect the micolensing signature of planets. PLANET and RoboNet tracked the July 11 event to completion, providing the data that confirmed the presence of a planet.

'This discovery illustrates the primary strength of the gravitational microlensing method: its ability to find planets of low-mass,' said Bennett, a pioneer in the field . 'For other methods, low-mass planets can yield signals that are too weak to detect, but with microlensing, the signals of low-mass planets are rare instead of weak. Thus, the rate of low-mass planet discoveries should increase dramatically if more microlensing events can be searched for planetary signals.'

Gravitational microlensing is based on an effect predicted by Albert Einstein in 1915. During a gravitational microlensing event, the almost perfect alignment between a background source star, a lens star, and an observatory allows researchers to discover a planet that orbits the lens star. The technique enables the detection of a planet?s gravitational field on the light seen from the more distant background star.

When two stars are perfectly aligned as seen from Earth, the gravitational field of the foreground star acts as a lens to magnify the background star. Astronomers don?t see the planet or the star that it is orbiting, but the effect of their gravity reveals the existence of the planet around the lens star.

Of the more than 150 planets discovered to date, almost all were discovered using the radial velocity method. While incredibly effective, existing technology using radial velocity can only find large, Jupiter-like planets or smaller planets that orbit too close to the their host stars to sustain life.

'This new discovery provides a strong hint that low-mass planets may be more common than Jupiters,' Bennett said. 'Microlensing should have discovered dozens of Jupiters by now if they were as common as these Earth-mass planets.'

Because OGLE-BLG-390Lb is only the third planet detected using gravitational microlensing and because the method has already revealed a small, rocky body, the researchers believe that there is a strong probability that rocky planets may be even more common than gas-giant ones. This lends support to core accretion, one of the models for solar system formation, which suggests that small, rocky planets should be far more common than massive gaseous planets.

A paper describing the discovery appears in Jan. 26 issue of the journal Nature.

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Last Updated: 26 Jan 2006