The hottest exoplanet
The extrasolar planet HD 149026b glows like an ember in space at a temperature of 3,700º Fahrenheit.
May 9, 2007
Provided by the University of Central Florida, Orlando
This image shows an artist's interpretation of a hot, Jupiter-like extrasolar planet circling very close to its sun. The planet is as hot as fire on one side, and as cold as ice on the other, a condition which may hold true for HD 149026b.
Photo by NASA / JPL-Caltech / T. Pyle
|May 9, 2007|
University of Central Florida Physics Professor Joseph Harrington and his team have measured the hottest planet ever at 3700 degrees Fahrenheit.
"HD 149026b is simply the most exotic, bizarre planet," Harrington said. "It's pretty small, really dense, and now we find that it's extremely hot."
Using Spitzer, NASA's infrared space telescope, Harrington and his team observed the tiny planet disappear behind its star and then reappear. Although the planet cannot be seen separately from the star, the dimming of the light that reached Spitzer told the scientists how much light the hot planet emits. From this, they deduced the temperature on the side of the planet facing its star. The team's findings were published online in Nature today.
Discovered in 2005, HD 149026b is a bit smaller than Saturn, making it the smallest extrasolar planet with a measured size. However, it is more massive than Saturn, and is suspected of having a core 70-90 times the mass of the entire Earth. It has more heavy elements (material other than hydrogen and helium) than exist in our whole solar system, outside the Sun.
This artist's concept shows the Spitzer Space Telescope whizzing by an infrared view of the Milky Way.
Photo by NASA / JPL
There are more than 230 extrasolar planets, but this is only the fourth of these to have its temperature measured directly. It is simple to explain the temperatures of the other three planets. However, for HD 149026b to reach 3700 degrees, it must absorb essentially all the starlight that reaches it. This means the surface must be blacker than charcoal, which is unprecedented for planets. The planet would also have to re-radiate all that energy in the infrared.
"The high heat would make the planet glow slightly, so it would look like an ember in space, absorbing all incoming light but glowing a dull red," said Harrington.
Drake Deming, of NASA's Goddard Space Flight Center in Greenbelt, MD, and a co-author of the Nature paper, thinks theorists are going to be scratching their heads over this one. "This planet is off the temperature scale that we expect for planets, so we don't really understand what's going on," Deming said. "There may be more big surprises in the future."
Harrington's team on this project also included Statia Luszcz from the Center for Radiophysics and Space Research at Cornell University, who is now a graduate student at the University of California, Berkeley. Sara Seager, a theorist in the Departments of Earth, Atmospheric, and Planetary Sciences and of Physics at the Massachusetts Institute of Technology, and Jeremy Richardson, an observer from the Exoplanet and Stellar Astrophysics Laboratory at NASA Goddard, round out the team.