1·The filtering characteristic of birefringent filter was studied.
研究了双折射滤光单元的滤光特性。
2·Crystals having this property are said to be doubly refracting, or birefringent.
具有这种性质的晶体叫做双折射晶体。
3·The feasibility of the analog birefringent structure is verified through an experiment.
实验中,用单级模拟双折射模块验证了该结构的可行性。
4·The vacuum itself is polarized, becoming strongly birefringent, like a calcite crystal.
真空本身被极化,变得具有很强的双折射性质,如同方解石一般。
5·The optical refraction threshold. birefringent gradient and extinction ratio were measured.
测试了晶体的光折变阈值、双折射梯度和消光比。
6·Equivalence of spun elliptical birefringent fiber and the elliptical polarizer is discussed.
还讨论了扭转椭圆双折射光纤和椭圆偏振器等效等问题。
7·The most renowned birefringent polarizer was introduced in 1828 by the scottish physicist nicol.
最著名的双折射起偏器是由苏格兰物理学家尼科耳在1828年发明的。
8·Linear birefringent effect is the primary factor that makes optical current transducer unpractical.
线性双折射效应是限制光学电流互感器实用化的关键因素。
9·Birefringent a fiber optic term. Having a refractive index that differs for light of different polarizations.
一种光纤术语。折射率与不同极化的光折射率不同。
10·An exact solution for the nonlinear birefringent medium model is obtained by using SO(3) rotation group property.
本文利用SO(3)旋转群性质得到了非线性双折射介质模型的一个严格解。
1·The authors realize the compensation of optical current transducer's linear birefringent effect by using artificial neural networks.
作者采用人工神经网络来实现光学电流互感器线性双折射效应的补偿。
2·Both nonreciprocal birefringent effect and variable polarization effect of microwave ferrite in the symmetrical four-pole magnetized field are discussed in the light of coupling-wave theory.
本文用耦合波理论处理了对称四磁极磁化情况下,微波铁氧体的非互易双折射效应和变极化效应。
3·A new structure of tunable polarization interference dense wavelength division multiplexing (DWDM) filter based on the analog birefringent module is presented.
提出了一种基于模拟双折射模块的可调谐偏振光干涉型密集波分复用滤波器(DWDM)的新结构。
4·It consists of two parallel polarizers, an electro-optical crystal and a birefringent crystal with radial symmetry.
该光瞳滤波器由两个平行偏光镜,一个电光晶体与一个径向对称双折射晶体组成。
5·It is proposed a new method to suppress PMD in birefringent optical fibers due to the limit of PMD compensation by use of soliton self trapping phenomenon.
利用双折射光纤中孤子自捕获现象可以抑制偏振模色散,但这种抑制技术对传输参量有严格的限制。