Kepler’s “First Light” Images

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W00t! Kepler has seen first light! The spacecraft has taken its first images of the star-rich sky where it will soon begin hunting for planets like Earth. These first images show the mission’s target patch of sky, a vast starry field in the Cygnus-Lyra region of our Milky Way galaxy. One image shows millions of stars in Kepler’s full field of view, while two others zoom in on portions of the larger region. “Kepler’s first glimpse of the sky is awe-inspiring,” said Lia LaPiana, Kepler’s program executive at NASA Headquarters in Washington. “To be able to see millions of stars in a single snapshot is simply breathtaking.”

The image above zooms into a small portion — just 0.2 percent –of Kepler’s full field of view, and shows an an expansive, 100-square-degree patch of sky in our Milky Way galaxy, and a cluster of stars located about 13,000 light-years from Earth, called NGC 6791, can be seen in the upper right corner. These images were taken on April 8, 2009, one day after Kepler’s dust cover was jettisoned. See more below.

This image shows Kepler’s entire field of view — a 100-square-degree portion of the sky, equivalent to two side-by-side dips of the Big Dipper. The regions contain an estimated 14 million stars, more than 100,000 of which were selected as ideal candidates for planet hunting. “It’s thrilling to see this treasure trove of stars,” said William Borucki, science principal investigator for Kepler at NASA’s Ames Research Center at Moffett Field, Calif. “We expect to find hundreds of planets circling those stars, and for the first time, we can look for Earth-size planets in the habitable zones around other stars like the sun.”

Kepler will spend the next three-and-a-half years searching more than 100,000 pre-selected stars for signs of planets. It is expected to find a variety of worlds, from large, gaseous ones, to rocky ones as small as Earth. The mission is the first with the ability to find planets like ours — small, rocky planets orbiting sun-like stars in the habitable zone, where temperatures are right for possible lakes and oceans of water.



This image zooms in on a region containing a star, called Tres-2, with a known Jupiter-like planet orbiting every 2.5 days.

To find the planets, Kepler will stare at one large expanse of sky for the duration of its lifetime, looking for periodic dips in starlight that occur as planets circle in front of their stars and partially block the light. Its 95-megapixel camera, the largest ever launched into space, can detect tiny changes in a star’s brightness of only 20 parts per million. Images from the camera are intentionally blurred to minimize the number of bright stars that saturate the detectors. While some of the slightly saturated stars are candidates for planet searches, heavily saturated stars are not.

“Everything about Kepler has been optimized to find Earth-size planets,” said James Fanson, Kepler’s project manager at NASA’s Jet Propulsion Laboratory in Pasadena, Calif. “Our images are road maps that will allow us, in a few years, to point to a star and say a world like ours is there.”

Scientists and engineers will spend the next few weeks calibrating Kepler’s science instrument, the photometer, and adjusting the telescope’s alignment to achieve the best focus. Once these steps are complete, the planet hunt will begin.

“We’ve spent years designing this mission, so actually being able to see through its eyes is tremendously exciting,” said Eric Bachtell, the lead Kepler systems engineer at Ball Aerospace & Technology Corp. in Boulder, Colo. Bachtell has been working on the design, development and testing of Kepler for nine years.

Source: NASA