Identification and calibration of ground system biases in ground to space laser time transfer

I. Procházka, J. Blažej, J. Kodet
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Abstract

Laser time transfer is and attractive technique to transfer time ground to space with picosecond precision and systematic errors on the level of tens of picoseconds. Recently the European Laser Timing experiment is under construction in the frame of the European Space Agency mission Atomic Clock Ensemble in Space. The objective of this laser time transfer is synchronization of the ground based clocks and the clock on board the International Space Station with picosecond precision and the accuracy better than 50 picoseconds We are reporting on a progress in identification and calibration of the biases associated to both ground and space segment. To characterize the delays of a ground segment the Calibration Device has been developed and tested. It enables to calibrate the ground based laser systems for their systematic timing biases. As a result the ground to ground time transfer in an ELT experiment should be accomplished with systematic errors not higher than 25 picoseconds. To determine the delays of a space segment the new calibration procedure has been designed and tested as well. The calibration test results will be presented.
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地空激光时间传递中地面系统偏差的识别与标定
激光时间传递是一种具有皮秒精度和几十皮秒级系统误差的极具吸引力的地面时间到空间时间传递技术。最近,欧洲激光计时实验正在欧洲航天局太空原子钟集合任务的框架内进行建设。这种激光时间转移的目标是使地面时钟与国际空间站上的时钟同步,具有皮秒精度和精度优于50皮秒。我们正在报告在识别和校准与地面和空间段相关的偏差方面取得的进展。为了表征地面段的延迟,已开发并测试了校准装置。它能够校准地面激光系统的系统定时偏差。因此,在ELT实验中,地对地时间传递的系统误差应不高于25皮秒。为了确定空间段的延迟,设计并测试了新的校准程序。校正测试结果将会公布。
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