Prospecting For Lunar Water on the Moon

"This is the first in a string of missions," says Gordon Chin, project scientist for LRO at NASA's Goddard Space Flight Center. "More robots will follow, about one per year, leading up to manned flight" no later than 2020.

LRO's instruments will do many things: they'll map and photograph the Moon in detail, sample its radiation environment and, not least, hunt for water.

For example, the spacecraft's Lyman-Alpha Mapping Project (LAMP), will attempt to peer into the darkness of permanently shadowed craters at the Moon's poles, looking for signs of ice hiding there.

How can LAMP see in the dark? By looking for the dim glow of reflected starlight.

LAMP senses a special range of ultraviolet light wavelengths. Not only is starlight relatively bright in this range, but also the hydrogen gas that permeates the universe radiates in this range as well. To LAMP's sensor, space itself is literally aglow in all directions. This ambient lighting may be enough to see what lies in the inky blackness of these craters.

more An artist's concept of the Lunar Reconnaissance Orbiter, which is still being designed

"What's more, water ice has a characteristic spectral 'fingerprint' in this same range of ultraviolet light, so we'll get spectral evidence of whether ice is in these craters," explains Alan Stern, a scientist at the Southwest Research Institute and principal investigator for LAMP.

The spacecraft is also equipped with a laser that can shine pulses of light into dark craters. The main purpose of the instrument, called the Lunar Orbiter Laser Altimeter (LOLA), is to produce a highly accurate contour map of the entire Moon. As a bonus, it will also measure the brightness of each laser reflection. If the soil contains ice crystals, as little as 4%, the returning pulse would be noticeably brighter.

LOLA by itself can't prove that ice is there. "Any kind of reflective crystals could produce brighter pulses," explains David Smith, principal investigator for LOLA at NASA's Goddard Space Flight Center. "But if we see brighter pulses only in these permanent shadows, we'd strongly suspect ice."