1) light transmission optics
传输光学
2) optical transmission matrix
光学传输矩阵
1.
Using optical transmission matrix method we testify the defective structure that result in the band gap with flaw, and then get the conclusion that "f" (the incident frequency in the flaw of band gap) will fall linearly with the increase of "n_c" (the refractive index of inserted dielectric layer), and simulate their geometrical figure.
采用文中图1所示的一维光子晶体的缺陷模,应用光学传输矩阵法,证明了由光子晶体的缺陷结构引起的光子禁带破缺,得出:"f"(禁带破缺处对应的入射光频率)随"nc"(插入介质层的折射率)的增加线性下降,数值模拟了它们的几何图形。
3) optical propagation property
光学传输特性
1.
In this paper, the optical propagation property of BSO crystal under simultaneously applied electric and magnetic fields is theoretically analyzed.
对电场和磁场同时作用下BSO晶体的光学传输特性作了理论分析,推导出其琼斯矩阵和米勒矩阵,并依此设计了一种电功率传感系
4) transmitting effect
光学传输效应
1.
The engineering model for optical transmitting characteristics of flow is built up and empirical model for optical imaging system induced by aero-optic transmitting effects is described.
气动光学传输效应对飞行器光学成像探测系统的性能有着十分重要的影响,它使探测器接受的图像产生偏移、抖动和模糊。
5) transmission,synchronous optical
同步光学传输
6) optical waveguide transmission
光学波导传输
补充资料:传播常数(见传输线)
传播常数(见传输线)
propagation constant
ChUon匕oChongsh日传播常数(propagation constant)线。见传输
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