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The search for exosolar planets

NASA's Deep Impact begins its hunt for alien worlds.
Provided by Goddard Space Flight Center, Greenbelt, Maryland
This is an artist's rendition of the Deep Impact flyby spacecraft releasing its impactor, 24 hours before the impact event in July 2005. Pictured from left to right are comet Tempel 1, the impactor, and the flyby spacecraft.
NASA/JPL
February 11, 2008
NASA's Deep Impact spacecraft is aiming its largest telescope at five stars in a search for alien, or exosolar, planets as it enters its extended mission, called EPOXI.

Deep Impact made history when the mission team directed an impactor from the spacecraft into comet Tempel 1 on July 4, 2005. NASA recently extended the mission, redirecting the spacecraft for a flyby of comet Hartley 2 on October 11, 2010.

As it cruises toward the comet, Deep Impact will observe five nearby stars with transiting exosolar planets, so named because the planet transits, or passes in front of, its star. The EPOXI team directed the spacecraft to begin these observations January 22. The planets were discovered earlier and are giant planets with massive atmospheres, like Jupiter in our solar system. They orbit their stars much closer than Earth does the Sun, so they are hot and belong to the class of exosolar planets nicknamed "Hot Jupiters."

However, these giant planets may not be alone. If there are other worlds around these stars, they might also transit the star and be discovered by the spacecraft. Deep Impact can even find planets that don't transit, using a timing technique. Gravity from the unseen planets will pull on the transiting planets, altering their orbits and the timing of their transits.

"We're on the hunt for planets down to the size of Earth, orbiting some of our closest neighboring stars," says EPOXI Deputy Principal Investigator Drake Deming.

More than 200 exosolar planets have been discovered to date. Most of these are detected indirectly, by the gravitational pull they exert on their parent star. Directly observing exosolar planets by detecting the light reflected from them is very difficult, because a star's brilliance obscures light coming from any planets orbiting it.

However, sometimes the orbit of an exosolar world is aligned so that it eclipses its star as seen from Earth. In these rare cases, called transits, light from that planet can be seen directly.

"When the planet appears next to its star, your telescope captures their combined light. When the planet passes behind its star, your telescope only sees light from the star. By subtracting light from just the star from the combined light, you are left with light from the planet," says Deming, who is leading the search for exosolar worlds with Deep Impact. "We can analyze this light to discover what the atmospheres of these planets are like."

Deep Impact will also look back to observe the Earth in visible and infrared wavelengths, allowing comparisons with future discoveries of Earth-like planets around other stars.
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