Add to ORKGAbstract. Lunar laser ranging has provided many of the best tests of gravitation since the first Apollo astronauts landed on the Moon. The march to higher precision continues to this day, now entering the millimeter regime, and promising continued improvement in scientific results. This review introduces key aspects of the technique, details the motivations, observables, and results for a variety of science objectives, summarizes the current state of the art, highlights new developments in the field, describes the modeling challenges, and looks to the future of the enterprise
Since the 1970s Lunar Laser Ranging (LLR) to the Apollo Cube Corner Retroreflector (CCR) arrays (dev...
Abstract To date, lunar laser ranging to the Apollo retroreflector arrays, which are still operati...
Since 1969 Lunar Laser Ranging (LLR) to the Apollo Cube Corner Reflector (CCR) arrays has supplied s...
Lunar laser ranging has provided many of the best tests of gravitation since the first Apollo astron...
Lunar laser ranging (LLR) has been a workhorse for testing general relativity over the past four dec...
Lunar Laser Ranging (LLR) measurements are crucial for advanced exploration of the evolutionary hist...
More precise lunar and Martian ranging will enable unprecedented tests of Einstein’s theory of Gener...
The interior properties of the Moon influence lunar tides and rotation. Three-axis rotation (physica...
Lunar laser ranging (LLR) measurements are crucial for advanced exploration of the laws of fundament...
The lunar laser ranging (LLR) technique is based on the two-way time-of-flight of laser pulses from ...
Laser pulses fired at retroreflectors on the Moon provide very accurate ranges. Analysis yields info...
The Lunar Laser Ranging station at the Observatoire de la Côte d'Azur, France, permits to measure t...
International audienceBased on a fully passive space segment, the lunar laser ranging experiment is ...
Laser pulses fired at retroreflectors on the Moon provide very accurate ranges. Analysis yields info...
Here, we review the LLR technique focusing on its impact on Geodesy and Relativity. We discuss the m...
Since the 1970s Lunar Laser Ranging (LLR) to the Apollo Cube Corner Retroreflector (CCR) arrays (dev...
Abstract To date, lunar laser ranging to the Apollo retroreflector arrays, which are still operati...
Since 1969 Lunar Laser Ranging (LLR) to the Apollo Cube Corner Reflector (CCR) arrays has supplied s...
Lunar laser ranging has provided many of the best tests of gravitation since the first Apollo astron...
Lunar laser ranging (LLR) has been a workhorse for testing general relativity over the past four dec...
Lunar Laser Ranging (LLR) measurements are crucial for advanced exploration of the evolutionary hist...
More precise lunar and Martian ranging will enable unprecedented tests of Einstein’s theory of Gener...
The interior properties of the Moon influence lunar tides and rotation. Three-axis rotation (physica...
Lunar laser ranging (LLR) measurements are crucial for advanced exploration of the laws of fundament...
The lunar laser ranging (LLR) technique is based on the two-way time-of-flight of laser pulses from ...
Laser pulses fired at retroreflectors on the Moon provide very accurate ranges. Analysis yields info...
The Lunar Laser Ranging station at the Observatoire de la Côte d'Azur, France, permits to measure t...
International audienceBased on a fully passive space segment, the lunar laser ranging experiment is ...
Laser pulses fired at retroreflectors on the Moon provide very accurate ranges. Analysis yields info...
Here, we review the LLR technique focusing on its impact on Geodesy and Relativity. We discuss the m...
Since the 1970s Lunar Laser Ranging (LLR) to the Apollo Cube Corner Retroreflector (CCR) arrays (dev...
Abstract To date, lunar laser ranging to the Apollo retroreflector arrays, which are still operati...
Since 1969 Lunar Laser Ranging (LLR) to the Apollo Cube Corner Reflector (CCR) arrays has supplied s...