Add to ORKGPrecision ranging between planets will provide valuable information for scientific studies of the solar system and fundamental physics. Current passive ranging techniques using retro-reflectors are limited to the Earth-Moon distance due to the 1/R? losses. We report on a laboratory realization and field implementation of active laser ranging in real-time with two terminals, emulating interplanetary distance. Sub-millimeter accuracy is demonstrated
Satellite laser ranging (SLR) is an established technology used for geodesy, fundamental science and...
The functions of a laser rangefinder on board an autonomous Martian roving vehicle are discussed. Th...
We propose to deploy small (2-3 kg) Lunar geodesy packages on the Moon's surface, consisting of an o...
Measurements of the motion of natural (and artificial) bodies in the solar system provide key input ...
In May 2005, timed observations of short laser pulses of light between the Mercury Laser Altimeter (...
Laser ranging to satellites (SLR) in earth orbit is an established technology used for geodesy, fund...
International audienceWe present the results of the first series of successful two-way laser ranging...
More precise lunar and Martian ranging will enable unprecedented tests of Einstein’s theory of Gener...
We report on a high sensitivity semiconductor laser ranging system developed for the Gravity and Mag...
The Lunar Laser Ranging station at the Observatoire de la Côte d'Azur, France, permits to measure t...
Lunar laser ranging (LLR) has been a workhorse for testing general relativity over the past four dec...
We present two different laser ranging systems under development, both based on the use of a high fr...
International audienceThe Lunar Laser Ranging (LLR) experiment has accumulated 50 years of range dat...
Space debris is a major problem for all the nations that are currently active in space. Adopting hig...
Ranging to passive reflectors on the Moon has delivered frontier science measurements of gravitation...
Satellite laser ranging (SLR) is an established technology used for geodesy, fundamental science and...
The functions of a laser rangefinder on board an autonomous Martian roving vehicle are discussed. Th...
We propose to deploy small (2-3 kg) Lunar geodesy packages on the Moon's surface, consisting of an o...
Measurements of the motion of natural (and artificial) bodies in the solar system provide key input ...
In May 2005, timed observations of short laser pulses of light between the Mercury Laser Altimeter (...
Laser ranging to satellites (SLR) in earth orbit is an established technology used for geodesy, fund...
International audienceWe present the results of the first series of successful two-way laser ranging...
More precise lunar and Martian ranging will enable unprecedented tests of Einstein’s theory of Gener...
We report on a high sensitivity semiconductor laser ranging system developed for the Gravity and Mag...
The Lunar Laser Ranging station at the Observatoire de la Côte d'Azur, France, permits to measure t...
Lunar laser ranging (LLR) has been a workhorse for testing general relativity over the past four dec...
We present two different laser ranging systems under development, both based on the use of a high fr...
International audienceThe Lunar Laser Ranging (LLR) experiment has accumulated 50 years of range dat...
Space debris is a major problem for all the nations that are currently active in space. Adopting hig...
Ranging to passive reflectors on the Moon has delivered frontier science measurements of gravitation...
Satellite laser ranging (SLR) is an established technology used for geodesy, fundamental science and...
The functions of a laser rangefinder on board an autonomous Martian roving vehicle are discussed. Th...
We propose to deploy small (2-3 kg) Lunar geodesy packages on the Moon's surface, consisting of an o...