NASA’s desire to return astronauts to the moon and later probe deeper into space achieved a key milestone recently when agency officials approved critical elements of a moon impact mission scheduled to launch in October 2008.
NASA’s unmanned Lunar Crater Observation and Sensing Satellite (LCROSS) will strike the moon near its south pole in January 2009. It will search for water and other materials that astronauts could use at a future lunar outpost.
Scott Horowitz, associate administrator of the agency’s Exploration Systems Mission Directorate, led a confirmation review panel that recently approved the detailed plans, instrument suite, budget and risk factor analysis for the satellite.
The confirmation review authorised continuation of the lunar impactor project and set its cost and schedule. Another mission milestone, the critical design review, is scheduled for late February. That review will examine the detailed Lunar Crater Observation and Sensing Satellite system design. After a successful critical design review, the project team will assemble the spacecraft and its instruments.
‘The Lunar Crater Observation and Sensing Satellite project represents an efficient way of doing business by being cost capped, schedule constrained and risk tolerant,’ said Daniel Andrews, project manager at Ames for the lunar impactor mission.
The lunar impactor will share a rocket ride into space with a second satellite, the Lunar Reconnaissance Orbiter. After the orbiter separates from the Atlas V launch vehicle for its own mission, the LCROSS will use the spent Centaur upper stage of the rocket as a 4,400-pound lunar impactor, targeting a permanently shadowed crater near the lunar South Pole.
According to scientists, the Centaur’s collision with the moon will excavate about 220 tons of material from the lunar surface. The Lunar Crater Observation and Sensing Satellite will observe the plume of material with a suite of six instruments to look for water ice and examine lunar soil. The satellite will fly through the plume, also impacting the lunar surface. That second impact will be observed from Earth.