1.
The basic principle of this measurement comes from the Fresnel formula and Brewster′s law.
其基本原理源于菲涅耳公式和布儒斯特定律。
2.
The bistable bahavior originating from optical nonlinear coupling between a prism and a nonlinear waveguide by using Fresnel formulas is described.
利用菲涅耳公式计算了棱镜非线性光波导耦合.
3.
FUNDAMENTAL FORMULAS FOR DESIGNING FRESNEL-TYPE LENSES OF DIFFERENT UTILIZATION
设计不同用途菲涅耳透镜的基本公式
4.
The discussion about the principle of Huygens-Fresnel and Kirchhoff s diffraction formula;
惠更斯-菲涅耳原理和基尔霍夫衍射公式的讨论
5.
Effects of placement method on the Fresnel double prism experiment
菲涅耳双棱镜放置方式对实验结果的影响
6.
Huygens-Fresnel principle
惠更斯-菲涅耳原理
7.
SINNER FORMULA DISCUSSED BY JONES VECTOR
用琼斯矢量法讨论菲涅尔反射、折射公式
8.
Analysis of Fresnel Off-axis Plane Holographic Reconstructing Images
菲涅耳离轴平面全息“再现像”的分析
9.
A Numerical Computing Method for the Fresnel Diffraction of Rectangular Aperture
矩孔菲涅耳衍射的一种数值计算方法
10.
Design of diffractive optical element for beam smoothing in Fresnel diffraction region
菲涅耳区衍射光学束匀滑器件的设计
11.
The Simulation of Fresnel Straight Edge Diffraction by MATLAB;
用MATLAB模拟菲涅耳直边衍射
12.
Effective Fresnel Number and Focal Shifts of Focused Cylindrical Light Beams;
聚焦柱面光束的等效菲涅耳数及焦移
13.
Fresnel Formulate and Brewster Law of Optical Waves in the Left-handed Materials
光波在左手材料中的菲涅尔公式和布儒斯特定律
14.
The difficulty was resolved by Fresnel with his addition of the concept of interference.
菲涅耳通过加进来干涉概念,解决了这个困难。
15.
In 1818 Fresnel entered a competition sponsored by French Academy.
1818年菲涅耳参加了法国科学院主办的一次竞赛。
16.
The Study of Numerical Reconstruction of Fresnel CGH of a 3-D Object
数字再现三维物体菲涅耳计算全息的研究
17.
Optical Tomography Based on Fresnel Zone Plate Scanning Holography
基于菲涅耳波带板扫描全息术的光学层析成像
18.
Fresnel Diffraction Transform and its Application in the Design of Binary Optics
菲涅耳衍射变换及其在二元光学设计中的应用