Add to ORKGThe LASSO (Later Synchronisation from Stationary Orbit) experiment, designed to demonstrate the feasibility of achieving time synchronization between remote atomic clocks with an accuracy of one nanosecond or better by using laser techniques for the first time is described. The experiment uses groundbased laser stations and the SIRIO-2 geostationary satellite to be launched towards the end of 1981. The qualification of the LASSO on-board equipment is discussed with a brief description of the electrical and optical test equipment used. The progress of the operational organization is included
Investigations were made of a configuration for a spaceborne laser radar (ladar) to meet the require...
Light has been used as a means for time synchronization for a long time. The flight time was suppose...
The Lunar Orbiter Laser Altimeter instrument on board the Lunar Reconnaissance Orbiter (LRO) mission...
Presented are equations for time synchronization of laser ranging stations. The system consists of a...
The LASSO is a technique which should allow the comparison of remote atomic clocks with sub-nanoseco...
A horizontal two-way time comparison link in air between the University of Maryland laser ranging an...
The main aims of the research are to develop various high-speed hardware circuits based on the lates...
Communications Research Laboratory (CRL) has been developing a laser time transfer system using a sa...
For the project of the Laser Time Transfer (LTT) we have developed the photon counting detector pack...
The use of ultra-precise optical clocks in space (“master clocks”) will allow for a range of new a...
Experimental studies using a pulsed LED, Cerenkov source, and a 100 ps laser were made of various ph...
The Laser Interferometer Space Antenna (LISA) aims to observe gravitational waves in the mHz regime ...
Synchronization and time maintenance between syncom satellite and syncom station
The new challenges related to the monitoring of Earth’s shape and motion have led the global geodeti...
The Ground/Orbiter Lasercomm Demonstration (GOLD) is a demonstration of optical communications betwe...
Investigations were made of a configuration for a spaceborne laser radar (ladar) to meet the require...
Light has been used as a means for time synchronization for a long time. The flight time was suppose...
The Lunar Orbiter Laser Altimeter instrument on board the Lunar Reconnaissance Orbiter (LRO) mission...
Presented are equations for time synchronization of laser ranging stations. The system consists of a...
The LASSO is a technique which should allow the comparison of remote atomic clocks with sub-nanoseco...
A horizontal two-way time comparison link in air between the University of Maryland laser ranging an...
The main aims of the research are to develop various high-speed hardware circuits based on the lates...
Communications Research Laboratory (CRL) has been developing a laser time transfer system using a sa...
For the project of the Laser Time Transfer (LTT) we have developed the photon counting detector pack...
The use of ultra-precise optical clocks in space (“master clocks”) will allow for a range of new a...
Experimental studies using a pulsed LED, Cerenkov source, and a 100 ps laser were made of various ph...
The Laser Interferometer Space Antenna (LISA) aims to observe gravitational waves in the mHz regime ...
Synchronization and time maintenance between syncom satellite and syncom station
The new challenges related to the monitoring of Earth’s shape and motion have led the global geodeti...
The Ground/Orbiter Lasercomm Demonstration (GOLD) is a demonstration of optical communications betwe...
Investigations were made of a configuration for a spaceborne laser radar (ladar) to meet the require...
Light has been used as a means for time synchronization for a long time. The flight time was suppose...
The Lunar Orbiter Laser Altimeter instrument on board the Lunar Reconnaissance Orbiter (LRO) mission...