The Lunar Crater Observation and Sensing Satellite, or LCROSS, successfully completed its most significant early mission milestone Tuesday with a lunar swingby and calibration of its science instruments. The satellite will search for water ice in a permanently shadowed crater at the moon’s south pole.

With the assist of the moon’s gravity, LCROSS and its attached Centaur booster rocket successfully entered into polar Earth orbit at 6:20 a.m. PDT on June 23. The maneuver puts the spacecraft and Centaur on course for a pair of impacts near the moon’s south pole on Oct. 9.

“The successful completion of the LCROSS swingby proves the science instruments are functioning as expected. It is a testament to the hard work and dedication of the entire team” said Dan Andrews, LCROSS project manager at NASA’s Ames Research Center at Moffett Field, Calif. “We are elated at the results from the maneuver and eagerly anticipate the impacts in early October.”

During its swing by the moon, the spacecraft’s instruments were turned on and calibrated by scanning three sites on the lunar surface. These sites were the craters Mendeleev, Goddard C and Giordano Bruno. They were selected because they offer a variety of terrain types, compositions and illumination conditions. The spacecraft also scanned the lunar horizon to confirm its instruments are aligned in preparation for observing the Centaur’s debris plume.

“Each instrument returned good data that the science team will spend the next few weeks analyzing,” said Anthony Colaprete, LCROSS project scientist at Ames. “These data will ensure we are as prepared as possible for monitoring and interpreting data we receive during impact.”

LCROSS and its attached Centaur upper stage rocket are now in a long, looping polar orbit around Earth and the moon. Each orbit will be roughly perpendicular to the moon’s orbit around Earth and take about 37 days to complete. Before impact, the spacecraft and Centaur will make approximately three orbits.

LCROSS and the Centaur separately will collide with the moon at approximately 7:30 a.m. EDT on Oct. 9, creating a pair of debris plumes that will be analyzed for the presence of water ice or water vapor, hydrocarbons and hydrated materials. The spacecraft and Centaur are targeted to impact the moon’s south pole near the Cabeus region. The exact target crater will be identified 30 days before impact, after considering information collected by NASA’s Lunar Reconnaissance Orbiter and observatories on Earth.

Nine hours before impact, about 54,000 miles above the surface, LCROSS and the Centaur will separate. LCROSS will spin 180 degrees to turn its science payload toward the moon and fire thrusters to create distance from the Centaur. The spacecraft will observe the flash from the Centaur’s impact and fly through the debris plume. Data will be collected and streamed to Earth for analysis. Four minutes later, LCROSS also will impact, creating a second debris plume.

Update: On June 23rd, 2009, NASA’s LCROSS spacecraft will fly by the Moon only 9,000 km above the lunar surface. The purpose of the encounter is to put LCROSS in an elongated Earth orbit and position it for impact at the lunar south pole later this year. Watch a Live video Stream of the flyby begins at approximately 5:20 AM PDT on Tuesday, June 23, 2009.

NASA successfully launched the Lunar Crater Observation and Sensing Satellite, or LCROSS, Thursday on a mission to search for water ice in a permanently shadowed crater at the moon’s south pole. The satellite lifted off on an Atlas V rocket from Cape Canaveral Air Force Station, Fla., at 5:32 p.m. EDT, with a companion mission, the Lunar Reconnaissance Orbiter, or LRO.

LRO safely separated from LCROSS 45 minutes later. LCROSS then was powered-up, and the mission operations team at NASA’s Ames Research Center at Moffett Field, Calif., performed system checks that confirmed the spacecraft is fully functional.

LCROSS and its attached Centaur upper stage rocket separately will collide with the moon at approximately 7:30 a.m. on Oct. 9, 2009, creating a pair of debris plumes that will be analyzed for the presence of water ice or water vapor, hydrocarbons and hydrated materials. The spacecraft and Centaur are tentatively targeted to impact the moon’s south pole near the Cabeus region. The exact target crater will be identified 30 days before impact, after considering information collected by LRO, other spacecraft orbiting the moon, and observatories on Earth.

“LCROSS has been the little mission that could,” said Doug Cooke, associate administrator for NASA’s Exploration Systems Mission Directorate at NASA Headquarters in Washington. “We stand poised for an amazing mission and possible answers to some very intriguing questions about the moon.”

The 1,290-pound LCROSS and 5,216-pound Centaur upper stage will perform a swing-by maneuver of the moon around 6 a.m. on June 23 to calibrate the satellite’s science instruments and enter a long, looping polar orbit around Earth and the moon. Each orbit will be roughly perpendicular to the moon’s orbit around Earth and take about 37 days to complete. Before impact, the spacecraft and Centaur will make approximately three orbits.

On the final approach, about 54,000 miles above the surface, LCROSS and the Centaur will separate. LCROSS will spin 180 degrees to turn its science payload toward the moon and fire thrusters to slow down. The spacecraft will observe the flash from the Centaur’s impact and fly through the debris plume. Data will be collected and streamed to LCROSS mission operations for analysis. Four minutes later, LCROSS also will impact, creating a second debris plume.

“This mission is the culmination of a dedicated team that had a great idea,” said Daniel Andrews, LCROSS project manager at Ames. “And now we’ll engage people around the world in looking at the moon and thinking about our next steps there.”

The LCROSS science team will lead a coordinated observation campaign that includes LRO, the Hubble Space Telescope, observatories on Hawaii’s Mauna Kea and amateur astronomers around the world.

Ames manages LCROSS and also built the instrument payload. Northrop Grumman in Redondo Beach, Calif., built the spacecraft.

LCROSS News

 

More Information
LCROSS Mission Site – NASA home page for the Lunar Crater Observation and Sensing Satellite, or LCROSS mission.
LCROSS Obervation Campaign – Projected lunar impact is on October 9, 2009 at 11:30 UT. Mission scientists estimate that the Centaur impact plume may be visible through amateur-class telescopes with apertures as small as 10 to 12 inches. The LCROSS mission will actively solicit images of the impact from the public.

 
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LCROSS Videos:

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