A $6 million University of baby直播app Boulder instrument designed to study the behavior of lunar dust will be riding on a NASA mission to the moon now slated for launch on Friday, Sept. 6, from the agency鈥檚 Wallops Flight Facility in Virginia.
The mission, known as the Lunar Atmosphere and Dust Environment Explorer, or LADEE, will orbit the moon to better understand its tenuous atmosphere and whether dust particles are being lofted high off its surface. The $280 million LADEE mission, designed, developed, integrated and tested at NASA鈥檚 AMES Research Center in Moffett Field, Calif., will take about a month to reach the moon and another month to enter the proper elliptical orbit and to commission the instruments. A 100-day science effort will follow.
鈥淲e are ready and excited for launch,鈥 said CU-Boulder physics Professor Mihaly Horanyi of the Laboratory for Atmospheric and Space Physics, principal investigator for the Lunar Dust Experiment, or LDEX. 鈥淲e think our instrument can help answer some important questions related to the presence and transport of dust in the lunar atmosphere.鈥
One unanswered question since the days of the Apollo program is why astronauts saw a pre-sunrise glow above the lunar horizon, said Horanyi, who directs LASP鈥檚 baby直播app Center for Lunar Dust and Atmospheric Studies. 鈥淭he glow has been suggested to be caused by dust particles that were electrically charged by solar ultraviolet light, causing them to lift off from the moon鈥檚 surface.鈥
baby直播app the size of a small toaster oven, the LDEX instrument will be able to chart the existence, size and individual velocities of tiny dust particles as small as 0.6 microns in diameter.听 For comparison, a standard sheet of paper is about 100 microns thick. A collision between a dust particle and a hemisphere-shaped target on LDEX generates a unique electrical signal inside the instrument to allow scientists to detect individual particles, said Horanyi.
Horanyi said clouds of dust specks seemingly observed by astronauts hovering over the moon likely weren鈥檛 clouds at all. 鈥淚f you watch a cement truck on the highway, it seems to be carrying a dust cloud along with it. But what is actually happening is that every speck of dirt coming off the truck is falling onto the highway,鈥 he said.
鈥淭he specks have very short lifespans, and the cloud that appears to surround the truck is actually a continual rain of dust from the vehicle to the pavement,鈥 he said. 鈥淪imilarly, the smallest lunar dust particles could also continually lift off and fall back onto the surface.鈥
Knowing more about the behavior of lunar dust could be of use for future human expeditions to the moon, including potential colonization efforts. Learning more about lunar dust also might help scientists better understand dust on other moons in the solar system -- like Phobos and Deimos that orbit Mars 鈥 that have been suggested by some as possible initial landing posts for crewed missions headed to the Red Planet.
LADEE also is carrying an ultraviolet and visible light spectrometer, a neutral mass spectrometer and a lunar laser communications demonstration.
Astronauts walking on the moon sank into a shallow layer of dust, thought to be a product of millions of years of meteoric and interstellar particle bombardment, he said. 鈥淭he beauty of physics is that we believe the same processes occur throughout the universe,鈥 he said.听 鈥淲hat we see on the moon may well apply to Mercury, Phobos, Deimos or asteroids, which all have very tenuous atmospheres.鈥
When the LADEE spacecraft is inserted into an elliptical orbit, its closest approach will be less than 20 miles from the lunar surface. 鈥淭he closer we can get to the surface the better,鈥 he said.
鈥淭his is a very exciting mission that will answer an almost 50-year-old question in space science,鈥 said CU-Boulder graduate student Jamey Szalay, who is writing data analysis software for the mission that will allow the team to analyze science results immediately after data is received from the spacecraft. 鈥淕iven the convenient duration of the mission and promising science return, I鈥檓 very fortunate to be a part of the science team -- it鈥檚 a dream project for any graduate student in space sciences to be working on.鈥
Horanyi also is the principal investigator on CU-Boulder鈥檚 Student Dust Counter, a simpler instrument than LDEX flying on NASA鈥檚 New Horizons mission that was launched in 2006 to explore Pluto and the Kuiper Belt, a massive region beyond the planets containing icy objects left over from the formation of the solar system. The Student Dust Counter was designed, built, tested and operated entirely by students, primarily undergraduates, at LASP and has been collecting data for the past seven years. New Horizons is now more than 2.5 billion miles from Earth and will arrive at Pluto in two years.
CU-Boulder researcher David James, who now is working on LDEX, got his start helping to build SDC. 鈥淎lthough I was a student in a lab back then, it was almost like working in the private sector,鈥 said James, who eventually received his doctorate from CU-Boulder. 鈥淲e were building an instrument that was going to Pluto. It was an amazing experience with huge responsibilities, it pushed us to do our best, and it definitely shaped who I am today.鈥
The LDEX instrument, as well as many previous LASP instruments launched into space since the 1970s, will carry a laser engraving of the CU mascot, Ralphie the Buffalo, as well as the names of all university people who participated in the project, from students and scientists to engineers and administrative support staff. 鈥淚t鈥檚 like adding a touch of history to the mission, perhaps for good luck and pride,鈥 said Horanyi.听 鈥淎fter all, this is the University of baby直播app.鈥
Contact:
Mihaly Horanyi, 303-492-6903
mihaly.horanyi@colorado.edu
Jim Scott, CU-Boulder media relations, 303-492-3114
jim.scott@colorado.edu