Advertisementįor scientists, there are always more questions than answers. Where there is water, there are the components for rocket fuel-liquid hydrogen and liquid oxygen. For human exploration, too, the proliferation of water offered a great opportunity. Scientists were therefore no longer just looking for fossils in long-dry lake beds on Mars they began seeking out living organisms in the large oceans of Europa, Enceladus, and elsewhere. Where there is water-or once was-life might have developed. These discoveries raised all manner of tantalizing prospects. As they looked beyond Earth, scientists discovered, water was nearly everywhere. The discovery of water ice on the Moon highlighted an era in which planetary scientists were finding ice and water all over the Solar System-on the ice-encrusted moons of Europa and Enceladus, on and beneath the surface of Mars, and potentially in even more far-flung locations, such as the interior of Pluto or Neptune's largest moon, Triton. "It is truly amazing how the results of that mission have been so profound," she said.
The experience cemented her interest as a planetary scientist in following the water. Centaur's mission was to blast one of these craters and see if the scientists were right.Īfter poring over the data, NASA declared that it had indeed found water in the vapor plume kicked up by the Centaur impact, as well as material ejected by the blast.įor Heldmann, this was a pivotal moment in her career. Although the Apollo landings in the 1960s and early 1970s had found a gray and barren world, scientists had since come to believe that pockets of ice were trapped below the rims of craters in permanent darkness at the poles, the remnants of billions of years of cometary impacts. NASA sought to "touch the ice" with the LCROSS mission.
As a 33-year-old planetary scientist, she was working her first major mission for NASA by coordinating observations of the impact with ground-based telescopes. It was October 2009, and Heldmann tracked the impact from inside the Science Operations Center at NASA Ames in California. In the name of science, a 2.3-ton chunk of steel struck the Moon with the force of 2 tons of TNT. Jennifer Heldmann stared at the computer screens on her desk, watching as a rocket's upper stage slammed into a crater near the South Pole of the Moon.