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Fifteen Years of Millimeter Accuracy Lunar Laser Ranging with APOLLO: Data Set Characterization

James Battat, E. G. Adelberger, Nicholas Colmenares, Megan Farrah, Daniel P. Gonzales, C. D. Hoyle, R. McMillan, Thomas W. Murphy, Sanchit Sabhlok, C. W. Stubbs

2023Publications of the Astronomical Society of the Pacific10 citationsDOIOpen Access PDF

Abstract

Abstract We present data from the Apache Point Observatory Lunar Laser-ranging Operation (APOLLO) covering the 15 yr span from 2006 April through the end of 2020. APOLLO measures the Earth–Moon separation by recording the round-trip travel time of photons from the Apache Point Observatory to five retro-reflector arrays on the Moon. The APOLLO data set, combined with the 50 yr archive of measurements from other lunar laser ranging (LLR) stations, can be used to probe fundamental physics such as gravity and Lorentz symmetry, as well as properties of the Moon itself. We show that range measurements performed by APOLLO since 2006 have a median nightly accuracy of 1.7 mm, which is significantly better than other LLR stations.

Topics & Concepts

ApolloObservatoryRangingLaser rangingRemote sensingRetroreflectorGeologyMoon landingData setLaserPhysicsGeodesyAstrobiologyAstronomyOpticsComputer scienceBiologyZoologyArtificial intelligencePlanetary Science and ExplorationGeophysics and Gravity MeasurementsRadio Astronomy Observations and Technology
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