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Largest Core in an Extrasolar Planet.


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planet orbiting the sun-like star HD 149026.
Artist illustration of the planet orbiting the sun-like star HD 149026. Image credit: U.C. Santa Cruz.

Astronomers have found an extrasolar planet that contains the largest core ever seen in a planet. This planet orbits the Sun-like star HD 149026, is roughly the size of Saturn, and takes only 2.87 days to complete its year. The planet was first discovered by the effect of its gravity around its parent star. Astronomers were then fortunate to detect how much it dims the light from the star as it passes in front. From this information, they were able to measure the planet's size, and calculate the size of its core. This discovery adds evidence to the "core accretion" theory of planetary formation, where planets start as balls of rock and ice, and collect a gas envelope around themselves.

NASA researchers recently discovered the largest solid core ever found in an extrasolar planet, and their discovery confirms a planet formation theory.

"For theorists, the discovery of a planet with such a large core is as important as the discovery of the first extrasolar planet around the star 51 Pegasi in 1995," said Shigeru Ida, theorist from the Tokyo Institute of Technology, Japan.

When a consortium of American, Japanese and Chilean Astronomers first looked at this planet, they expected one similar to Jupiter. "None of our models predicted that nature could make a planet like the one we are studying," said Bun'ei Sato, consortium member and postdoctoral fellow at Okayama Astrophysical Observatory, Japan.

Scientists have rarely had opportunities like this to collect such solid evidence about planet formation. More than 150 extrasolar planets have been discovered by observing changes in the speed of a star, as it moves toward and away from Earth. The changes in speed are caused by the gravitational pull of planets.

This planet also passes in front of its star and dims the starlight. "When that happens, we are able to calculate the physical size of the planet, whether it has a solid core, and even what its atmosphere is like," said Debra Fischer. She is consortium team leader and professor of astronomy at San Francisco State University, Calif.

The planet, orbiting the sun-like star HD 149026, is roughly equal in mass to Saturn, but it is significantly smaller in diameter. It takes just 2.87 days to circle its star, and the upper atmosphere temperature is approximately 2,000 degrees Fahrenheit. Modeling of the planet's structure shows it has a solid core approximately 70 times Earth's mass.

This is the first observational evidence that proves the "core accretion" theory about how planets are formed. scientists have two competing but viable theories about planet formation.

In the "gravitational instability" theory, planets form during a rapid collapse of a dense cloud. With the "core accretion" theory, planets start as small rock-ice cores that grow as they gravitationally acquire additional mass. scientists believe the large, rocky core of this planet could not have formed by cloud collapse. They think it must have grown a core first, and then acquired gas.

"This is a confirmation of the core accretion theory for planet formation and evidence that planets of this kind should exist in abundance," said Greg Henry, an Astronomer at Tennessee State University, Nashville. He detected the dimming of the star by the planet with his robotic Telescopes at Fairborn Observatory in Mount Hopkins, Arizona.

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