2) deep space optical communication
深空光通信
1.
Extend-beacon tracking for deep space optical communication based on phase-correlation;
基于相位相关的深空光通信扩展信标跟踪技术研究
2.
Research on beam pointing in deep space optical communication;
深空光通信中光束瞄准技术研究
3.
Extend-beacon acquisition demonstration experiment in laboratory for deep space optical communication based on CCD angle monitor technology was executed.
基于CCD的角度偏差检测技术,对深空光通信中扩展信标的捕获机制进行了实验室模拟演示实验研究,获得了较好的演示效果。
3) space laser communication
空间激光通信
1.
This paper states how adaptive optics technique can be used in space laser communication system to compensate atmospheric turbulence when laser beam transmission through it.
阐述了如何将自适应光学技术应用于空间激光通信系统工程中,以补偿大气湍流效应对激光束传输的影响。
2.
The adaptive optical system can reduce the influence of atmospheric turbulence on space laser communication system,the application of adaptive optical system in space laser communication system is introduced in this article.
自适应光学系统可以减小大气湍流对空间激光通信系统的影响,该文主要介绍了自适应光学系统在空间激光通信系统中的应用。
3.
The intensity fluctuation in space laser communication is analyzed quantitatively by using numerical simulation method, the relation of the intensity correlative scale with the atmospheric coherence length is obtained.
利用数值模拟的方法,定量地计算分析了空间激光通信中光强起伏问题,得到了准直光束与聚焦光束光强起伏相关距离(不均匀元半径)随大气相干长度变化的结果;进而分别从接收效率和性价比等不同的角度对激光通信系统接收孔径选取的参考因素进行了探讨。
4) ground-space laser communication
地空激光通信
5) space-to-ground laser communications
空地激光通信
1.
The effect of background light and atmospheric turbulence to spots received in space-to-ground laser communications;
背景光及大气湍流对空地激光通信接收光斑产生的影响
6) Free-space laser communication
空间激光通信
1.
The effects of the atmospheric turbulence disturbance for free-space laser communication systems are analyzed in the paper, and the correction of low-order modes with adaptive optics system for wave-front error are also discussed.
本论文分析和论述了大气扰动对空间激光通信的影响以及利用自适应光学系统校正低阶模式波前误差理论。
补充资料:空光
1.阳光。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条