The European Space Agency’s (ESA) experimental moon satnav mission Lunar Pathfinder will fly a NASA-built instrument that will explore the shape and structure of Earth’s celestial companion in greater detail than before.
The instrument is an array of laser reflectors that will bounce back signals sent from Earth to help scientists study the moon‘s gravity and internal structure with great accuracy.
The new retroreflector array on the Lunar Pathfinder mission, which is expected to launch in 2024, will return more than twelve times the laser light of previous laser reflectors flown in the moon’s orbit or placed on its surface, NASA said in a statement (opens in new tab).
“Over time, measurements from lunar retroreflectors allow us to better understand the relationship between Earth and the moon,” Stephen Merkowitz, a project manager at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, said in the statement. “They also contribute to our understanding of the moon’s interior structure and studies of gravity.”
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The new laser retroreflector array consists of 48 reflector cubes that will bounce back laser signals sent from Earth. By measuring the time it takes for the laser pulses to complete the lunar round trip, scientists can calculate precise distances between the reflector and the receiving ground station.
“Our interest is in generating the various geodetic products used by all NASA missions to geolocate their data and in orbit determination,” said Merkowitz. “Laser retroreflectors like the one on the Lunar Pathfinder provide some of the critical measurements we rely on when creating these products.”
The measurements will provide a basis for a reference frame that could be used to create accurate maps that will enhance navigation on the moon as well as exploration by satellites from orbit. The Lunar Reference Frame will be an extension of the International Terrestrial Reference Frame (ITRF) that provides a foundation for geolocation on Earth.
“As spaceflight becomes more commonplace, establishing similar reference frames for the moon that are accurately known with respect to Earth will be crucial to space exploration,” Thomas Johnson of the U.S. National Geospatial-Intelligence Agency (NGA), which cooperates on the project, said in the statement.
The mission is part of a NASA-led international initiative to establish permanent human presence on the moon. On August 29, NASA is expected to conduct an uncrewed test flight of its Space Launch System lunar rocket as part of the Artemis 1 mission. A mission with astronauts could take place in 2024, while a human landing on the moon is expected to take place a year after that.
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