1.
It diffracts the diffracted beam which effectively means that it generates an inverse transform.
它对衍射光束再发生衍射,这实际上意味着它产生了一个逆变换。
2.
Analyzing the Characteristics of Bessel Beams and the Concept Relating to Diffraction-Free Beams
贝塞耳光束的特性和无衍射光束相关概念的分析
3.
X-ray diffraction microbeam camera
X射线衍射微光束摄影机
4.
Study on Fabrication of Diffract-optical Filters by Using Multi-beams Holographic-interference;
多光束干涉全息法制作衍射光学元件
5.
The light is emitted by the laser diode and enters a diffraction grating.
激光束从激光二极管中发出,射入衍射光栅。
6.
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
7.
Theory and experiment of diffraction-free Bessel beam interference
无衍射贝塞尔光束相干的理论与实验
8.
Theoretical and Experimental Study on Vortex Beam Transmitted Through a Single-Slit
涡旋光束单缝衍射的理论和实验研究
9.
Change of Polarization of Vortex Beams Induced by Diffraction Effect
衍射效应诱导涡旋光束的偏振度变化
10.
Design of Diffractive Optical Elements for Laser Beam Shaping
用于激光光束整形的衍射光学元件设计
11.
Diffraction of Gaussian Beam of Light by an Optical Lens and a Small Circular Aperture
高斯光束通过透镜-微小圆形光阑系统的衍射
12.
When the laser beam goes through the diffraction grating, it is split up into a central bright beam plus a number of side beams.
当激光束射入衍射光栅后,被分成一个中间的明亮光束和一些处于旁边的光束。
13.
The Stokes parameters were determined by measuring the multiple beam diffraction intensity.
通过测量多光束衍射强度,确定了斯托克斯参量。
14.
FAR-FIELD DISTRIBUTIONS OF INFRARED LASER BEAM PASSING THROUGH CASSEGRAIN SYSTEM
红外激光束经卡塞格伦系统衍射后的远场分布
15.
The Research on "Nondiffracting" Quality of Zero-order Bessel Beams and Its Application;
零级贝塞尔光束的“无衍射”特性及其应用研究
16.
The Propagation Characteristics of the Diffraction Field by a Circular Aperture of Bessel-Gauss Beam;
贝塞尔-高斯光束圆孔衍射场的传播特性
17.
DIFFRACTION FIELD INTENSITY DISTRIBUTION OF GAUSSIAN BEAM OF BASE MODEL AT NEARLY FOCAL PLANE OF LENS;
基模高斯光束在透镜焦面上的衍射场强分布
18.
Designing Algorithms and Actualizing Techniques for Diffractive Optics Elements in Beam Shaping
束匀滑衍射光学器件的设计方法和制作工艺