Timing precision of active Q-switched mode-locked laser and fire control system for the synchronous satellite laser ranging

Kunimori H.; Otsubo T.

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Timing precision of active Q-switched mode-locked laser and fire control system for the synchronous satellite laser ranging

机译：有源Q开关锁模激光器的定时精度和同步卫星激光测距的火控系统

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We have developed a laser fire synchronization system which controls the firing time of the laser so that each laser pulse reaches a target satellite exactly within 100 ns at a specified epoch. A conventional Nd:YAG active-passive laser has been modified to an active Q-switched mode-locked laser to reduce the laser delay jitters with respect to commanded time. An epoch-triggered fire control system has also been introduced to ensure commanded time to take account of the target range prediction, station clock error, and other fixed delays. Timing jitters of 70 ns RMS have been demonstrated on a geodetic satellite after evaluating laser delay offset, predicted range error, and station clock drift. Improvements to the 10 ns level by further laser control upgrades are possible.

机译：我们已经开发了一种激光发射同步系统，该系统控制激光的发射时间，以便每个激光脉冲在指定的时间段内精确地在100 ns内到达目标卫星。常规的Nd：YAG主动-被动激光器已修改为主动Q开关锁模激光器，以减少相对于指令时间的激光延迟抖动。还引入了历时触发的火力控制系统，以确保命令时间考虑目标范围预测，测站时钟误差和其他固定延迟。在评估激光延迟偏移，预测范围误差和台站时钟漂移之后，在大地卫星上已证明70 ns RMS的定时抖动。通过进一步的激光控制升级，可以将其提高到10 ns。

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《IEEE Transactions on Instrumentation and Measurement》 |1995年第3期|P.832-835|共4页
作者
Kunimori H.; Otsubo T.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类电工单位、电工计算;电气测量技术及仪器;
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Timing precision of active Q-switched mode-locked laser and fire control system for the synchronous satellite laser ranging

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