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Hot Topic Exploration Missions Keck Compliments Kepler
 
Keck Compliments Kepler
Based on a Keck Observatory news release
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Missions
Posted:   03/13/09

Summary: With the successful launch of NASA's Kepler mission, astronomers will now use the powerful instrument alongside Hawaii's W. M. Keck telescopes to increase their chances of finding planets beyond our solar system. Together, the two sets of telescopes will examine new planets to determine whether or not they are habitable.

Keck and Kepler Team up to Find Other Earths

NASA’s Kepler spacecraft was launched from NASA’s Kennedy Space Center on March 6.
Credit: NASA
For nearly a decade, Cal-Berkeley astronomer Geoff Marcy and his colleagues have been using the W. M. Keck telescopes to discover giant planets orbiting distant stars. Now, with the successful launch of NASA’s Kepler mission, they will be using Keck I’s ten-meter astronomical eye to discover distant Earths. Kepler will pick out Earth-like candidates. Keck will then zero in on them and determine, with certainty, if they are at all similar to our home planet.

“Keck and NASA have a long-standing partnership to push astronomy research to its fullest potential. This Keck-Kepler collaboration gives that partnership a compelling new scientific focus,” said Taft Armandroff, the Director of Keck Observatory headquartered in Kamuela, Hawaii.

Kepler was launched from NASA’s Kennedy Space Center on March 6. Aboard the spacecraft is an 84-megapixel camera that will focus on a single region of the sky and snap repeated images of 100,000 stars looking for those that dim periodically. By studying the stars’ episodic decreases in starlight, astronomers will be able to determine the diameter of the object that passes in front of the star, blocks its light and causes the dimming.

“Kepler does not tell astronomers with certainty if the object taking a bite out of the starlight is a planet or another star. That is where Keck plays a crucial role to the Kepler mission,” said Marcy, a frequent Keck user and Kepler mission co-investigator. He, along with a large international planet-hunting team, has discovered nearly half of the 300-plus known planets outside the solar system.

Kepler is designed to find the first Earth-size planet candidates orbiting stars in the 'Goldilocks', or 'habitable' zone. This is the region around a star where the temperature is not too hot, not too cold, but just right. This zone is far from a hot, blue star, so any habitable planet around a hot star would have a long-period orbit. For cooler, redder stars, a planet in the zone would be close-in and would orbit in several weeks or months.
Image Credit: NASA
Astronomers call the objects Kepler detects transits because from the telescope’s perspective the planet candidate seems to eclipse its parent star’s light. The phenomenon is similar to the Moon eclipsing the sun during a total solar eclipse. But a distant planet eclipsing its parent star will only block a small fraction, 1/10,000, of the star’s light. The Moon, by contrast, blocks nearly all of the sun’s light in a total solar eclipse.

In the Kepler-Keck duo, once Kepler team members find an Earth candidate and determine as best they can that they’re not looking at two stars orbiting each other, they will hand the object off to Marcy and his colleagues. The team will use Keck I telescope and its instrument HIRES, the High Resolution Spectrometer, to monitor how the light coming from the parent star changes as the planet candidate orbits.

HIRES is an instrument that spreads light collected from the telescope mirrors into its component wavelengths or colors. This is called a spectrum. When the planet candidate orbits around the back of the star, its gravity will ever so slightly pull on the star causing the star’s spectrum to shift toward redder wavelengths. When the planet comes around in its orbit to cross the face of the star, it will pull the star in the other direction, and the star’s spectrum will shift toward bluer wavelengths. HIRES will detect these shifts and give astronomers the star’s radial velocity, or the speed at which the star moves toward or away from Earth. Based on this speed, Marcy and his team will be able to calculate the mass of planet candidate.

An artist’s rendition of Jupiter (left) and Earth (right) transiting the sun, as viewed from outside the solar system.
Credit: NASA/Ames Research Center.
“Keck’s HIRES is the only game in town that can measure spectral shifts caused by an Earth-sized planet. No other telescope is big enough,” Marcy said. “That is why NASA is really heavily dependent on the Keck telescopes right now.”

Calculating the planet candidate’s mass is important because it tells astronomers whether a planet or another star is eclipsing the parent star. If the object turns out to be a planet, Marcy and his team can then use the Keck-calculated mass and Kepler-calculated diameter to determine the planet’s density. “In a sense it’s as if we are taking the planets and dunking them in a bathtub to see if they float. A rocky planet like Earth would sink,” Marcy said. Earth has a density of about five grams per cubic centimeter. Gas giants, on the other hand, have a density close to water at about one gram per cubic centimeter.

“Studying the radial velocity of the planet candidates Kepler discovers is a key endeavor in understanding our place in the cosmos. It will help answer one of humanity ‘biggest questions, “Are we alone?” Armandroff said.

Marcy and his colleagues plan to start studying Kepler’s candidate Earths with Keck I and HIRES during the last three night of July 2009.


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