时间转移
激光器
卫星激光测距
计量学
计算机科学
卫星
链接预算
遥感
传输(计算)
同步(交流)
过程(计算)
环境科学
运筹学
光学
航空航天工程
电信
物理
激光测距
工程类
频道(广播)
并行计算
操作系统
地质学
无线
作者
E. Samain,P. Exertier,Clément Courde,P. Fridelance,Ph. Guillemot,M. Laas–Bourez,J-M Torre
出处
期刊:Metrologia
[IOP Publishing]
日期:2015-04-01
卷期号:52 (2): 423-432
被引量:51
标识
DOI:10.1088/0026-1394/52/2/423
摘要
The Time Transfer by Laser Experiment (T2L2) on the Jason 2 satellite is a mission allowing remote clocks synchronization at the picosecond level. It is based on laser ranging technologies, with a laser station network on the ground and a dedicated instrument on board the satellite. It was launched in June 2008 and has been working continuously since then. T2L2 performances are very promising for time and frequency metrology and also for fundamental physics. The scientific objectives of the whole experiment rely on a rigorous uncertainty budget. This is governed by the characteristics of the space instrument and the laser stations network, the post treatment done on the ground, and also the process used to calibrate the laser stations. The uncertainty budget demonstrates that T2L2 is able to perform common-view time transfers between remote sites with an expanded uncertainty better than 140 ps (coverage factor = 2).
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