This paper investigate the problem of multicast routing in mesh WDM networks with sparse light splitter configuration.
研究了WDM网络中在稀疏分光器配置约束下的多播选路问题。
However, owing to some limitations on optical buffer, light splitter, and wavelength converter, optical multicast at optical layer offers different characteristics from those at IP layer.
然而,光层组播由于光缓存、光分束和光波长变换等光器件的限制,呈现出和IP层组播不同的特点。
Then you send laser light through a beam splitter to divide the beam between the two arms, and let the light bounce back and forth a few times before returning to the beam splitter.
然后你通过分光器发射一束激光,让光线在两条边不断反射再回到分光器。
The returning light beams merge together at the beam splitter and create an interference pattern of light and dark regions where the light waves either cancel out or reinforce each other.
返回的两束光在分束器处汇合,产生由亮区和暗区组成的干涉图案,图案中,光波要么相互抵消要么相互增强。
If the two arms have identical lengths, then interference between the light beams returning to the beam splitter will direct all of the light back toward the laser.
如果两条边一样长,分光器发射的激光将被完全反射回分光器。
Theoretical analysis shows that the splitter with high diffraction efficiency and uniform distributed light intensity can be designed by incidence Angle optimization.
理论分析表明,通过对入射角进行优化可以得到衍射效率高且光强分布均匀的分束器。
It also shows the relationship of light intensity in any direction of polarization splitter and phase delay of a single plate within PC, and proves the result by experiments.
给出了偏振光分束器任一个偏振方向上的光强随单个波片相位延迟变化的关系,并从实验上验证了这一关系。
The unpolarized light from a lamp would be concentrated by a reflector and directed to a polarizing beam splitter.
灯发出的散射光将集中到一个反射面,并指向一偏振分光镜。
The effects of optical medium including light beam splitter and reflecting metallic film on laser polarization state in a coherent CO_2 lidar are discussed.
讨论了红外相干激光雷达中光学介质对偏振光束的影响程度,包括光束分束片和反射镜片的影响,给出了定量的结果。
Continuing along its path, this portion of s-polarized light would be reflected twice by the lamp reflector, and would finally be reflected perpendicularly, by the beam splitter, toward the LCD panel.
继续沿其路径,这部分的s偏振光将灯泡反光罩反射两次,最终由偏振分光镜得到垂直反射到液晶面板。
Continuing along its path, this portion of s-polarized light would be reflected twice by the lamp reflector, and would finally be reflected perpendicularly, by the beam splitter, toward the LCD panel.
继续沿其路径,这部分的s偏振光将灯泡反光罩反射两次,最终由偏振分光镜得到垂直反射到液晶面板。
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