In the field of atmospheric optics, distribution of sky brightness is widely used.
光学领域中,天空亮度分布有着重要的应用。
The data measurement of dynamic wavefront phase is an important experimental means for atmospheric optics, aero optics and laser technique.
动态波前相位信息测量是大气光学、气动光学和激光技术等领域的重要实验手段。
Refractive index field of atmosphere distributes homogeneously due to the difference of pressure, temperature, relative humidity and carbon dioxide content in the atmospheric optics.
在大气光学成像领域,由于大气中压强、温度、相对湿度和二氧化碳含量的不同,导致大气折射率场呈非均匀分布。
Its adaptive optics correct not only for atmospheric distortion but also for ground winds that can alter observational accuracy.
它的光学自适应校正不仅仅是为了抵消大气带来的畸变,也能补偿风所带来的观测精度变化。
The atmospheric conditions, low average temperatures, and very low humidity will open an exciting new discovery space using adaptive optics and infrared observations.
那儿的大气环境、较低的平均温度、以及非常低的湿度将利于我们采用适应性光学(adaptive optics)和红外观测仪探索出令人振奋的新空间。
In this paper, the initial experimental results of laser beam transmission with adaptive optics technique for compensating atmospheric turbulence is reported.
本文报告了用自适应光学技术实时补偿大气湍流的激光发射初步实验结果。
System performance is influenced seriously by the phase disturbance caused by atmospheric turbulence and the problem may be solved by using the adaptive optics compensation.
大气湍流引起的相位噪声会严重地影响系统的性能,而自适应光学补偿可使问题得到很好的解决。
Atmospheric coherence length is one of important parameters of atmospheric turbulence, atmospheric propagation of laser and phase adjustment of adaptive optics.
大气相干长度是研究大气湍流强度、激光大气传输以及自适应光学的重要参量之一。
When intensity of the atmospheric turbulence becomes stronger, or the cut off spatial frequency of the adaptive optics system becomes higher, the influence of transverse wind becomes stronger.
大气湍流的强度越大,自适应光学系统的截止频率越高,横向风的影响也越大。
In this paper, the relation of cloudy sky luminance with particle scatter and air mass is discussed by using the results of atmospheric and geometrical optics.
利用大气光学和几何光学的成果,讨论了阴天天空亮度与粒子散射和大气质量的关系,从微观机理上说明了阴天空最大亮度元的存在性,并得到了有趣的结果。
Adaptive optics technology is an effective way to alleviate the effect of turbulence on atmospheric optical communication.
自适应光学技术是缓解大气激光通信中大气湍流影响的有效途径之一。
Adaptive optics technology is an effective way to alleviate the effect of turbulence on atmospheric optical communication.
自适应光学技术是缓解大气激光通信中大气湍流影响的有效途径之一。
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