NASA's Lunar Atmosphere and Dust Environment Explorer (LADEE) spacecraft is
gradually lowering its orbital altitude to continue making science observations
prior to its planned impact on the moon’s surface on or before April 21.
Ground controllers at NASA's Ames Research Center in Moffett Field, Calif.,
are maneuvering the spacecraft to fly approximately 1 to 2 miles (2 to 3
kilometers) above the lunar surface to gather science measurements at the lowest
altitude possible.
A final maneuver will ensure LADEE's trajectory will impact the far side of
the moon, which is not in view of Earth or near any previous lunar mission
landings. Ground controllers have little room for error with LADEE's navigation
system, and at these low orbital altitudes, a small error could mean the
difference between continuing to orbit above the lunar surface and impacting it.
Because of this, the team does not intend to target a specific impact location
on the moon's surface.
"The moon's gravity field is so lumpy, and the terrain is so highly variable
with crater ridges and valleys that frequent maneuvers are required or the LADEE
spacecraft will impact the moon’s surface," said Butler Hine, LADEE project
manager at Ames. "Even if we perform all maneuvers perfectly, there's still a
chance LADEE could impact the moon sometime before April 21, which is when we
expect LADEE's orbit to naturally decay after using all the fuel onboard."
Until mid-April, ground controllers will continue to fire the LADEE altitude
control thrusters once a week to keep the observatory in its target orbit. On
April 11, LADEE will perform its final orbital maintenance maneuver before the
total lunar eclipse on April 15, when Earth’s shadow passes over the Moon. This
eclipse, which will last approximately four hours, exposes the spacecraft to
conditions at the limits of what it was designed to withstand.
"If LADEE survives the eclipse, we will have nearly a week of additional
science at low altitudes before impact," said Rick Elphic, LADEE project
scientist at Ames. "For a short mission like LADEE, even a few days count for a
lot – this is a very exciting time in the mission."
After the eclipse, ground controllers will determine how well the spacecraft
is functioning. If it is healthy, LADEE will continue to acquire and transmit
science data, as longs as its altitude and contact with ground controllers
allow.
"We're very eager to see how LADEE handles the prolonged exposure to the
intense cold of this eclipse, and we've used flight data to predict that most of
the spacecraft should be fine," said Hine. "However, the eclipse will really put
the spacecraft design through an extreme test, especially the propulsion
system."
Launched in September 2013, from NASA's Wallops Flight Facility on Wallops
Island, Va., the vending-machine size spacecraft has been orbiting the moon
since Oct. 6. On Nov. 10, LADEE began gathering science data, and on Nov. 20,
the spacecraft entered its science orbit around the moon's equator. LADEE has
been in extended mission operations following a highly successful 100-day
primary science phase.
"Because the LADEE team has flawlessly performed every maintenance maneuver,
they've been able to keep the spacecraft flying in its proper orbit and have
enabled this amazing mission extension and science to continue up until the very
end," said Joan Salute, LADEE program executive at NASA Headquarters in
Washington.
LADEE's three science payload instruments have been working to unravel the
mysteries of the moon's atmosphere, acquiring more than 700,000 measurements. In
its previous orbit, LADEE's closest approach to the lunar surface was between
12.5 and 31 miles (20 and 50 kilometers), and its farthest was between 47 and 93
miles (75 and 150 kilometers) – a unique position that allows the spacecraft to
frequently pass from lunar day to lunar night every two hours. This vantage
provides data on the full range of changes and processes occurring within the
moon's tenuous atmosphere.
Scientists hope this data will help answer a long-standing question: Was
lunar dust, electrically charged by sunlight, responsible for the pre-sunrise
glow detected during several Apollo missions above the lunar horizon? LADEE also
is gathering detailed information about the structure and composition of the
thin lunar atmosphere. A thorough understanding of these characteristics of our
nearest celestial neighbor will help researchers understand other bodies in the
solar system, such as large asteroids, Mercury, and the moons of outer
planets.
NASA's Science Mission Directorate in Washington funds the LADEE mission.
Ames manages the overall mission and serves as a base for mission operations and
real-time control of the probe. NASA's Goddard Space Flight Center in Greenbelt,
Md., catalogues and distributes data to a science team located across the
country and manages the science instruments. NASA's Marshall Space Flight Center
in Huntsville, Ala., manages LADEE within the Lunar Quest Program Office.
For more information about the LADEE mission, visit:
NASA
Guillermo Gonzalo Sánchez Achutegui
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