Recently,it has been realized that dendrimers can exhibit the light-harvesting properties.
近年来,光捕获的特性除了在自然界同时也在许多树枝状聚合物分子上体现出来,并引起广泛关注。
With the development of Laser Biography, the optical trapping technology based on microbeam laser becomes an effective tool in the research of life science and bioengineering little by little.
随着激光生物学的发展,以激光微束的光阱效应为基础的激光捕获技术逐渐成为生命科学和生物工程研究的有力工具。
Optical tweezers,also known as optical trapping.
光镊技术,又称光学捕获技术,它是利用光的辐射压力来捕获和操纵包括电介质颗粒、生物细胞及生物大分子在内的微小粒子的。
Optical Trapping Technology and Study on the Focusing Properties of Annular Laser Beam;
激光捕获技术及环形光束的聚焦特性研究
Technology and application of the laser capture microdissection in forensic science;
激光捕获显微分离技术及其法医学研究进展
Ultra-precision Machining Technology Based on Laser Trapping
基于激光捕获原理的超精密加工技术研究
Research on Single-Photon Acquisition Probability in Satellite-Ground Quantum Optical Communication
星地量子光通信单光子捕获概率研究
DNA Genotyping of Oral Epithelial Cells by Laser Capure Microdissection;
激光显微捕获口腔上皮细胞的DNA分型
Research Single-Photon Acquisition Technique in Free-Space Quantum Communication
空间量子通信中单光子捕获技术研究
Target Capture Method for Optical Equipment in Sea Range Test
海上靶场试验光学设备捕获目标方法
SIMULATION OF SINGLE-PHOTO ACQUISITION PROBABILITY WITH QKD
单光子捕获概率仿真计算方法的研究
A new type of acquisition technology based on dual-beam scanning of laser satellite communication
一种新型的双光束扫描卫星光通信捕获技术
Research on Acquisition, Pointing & Tracking Technique for Satellite Optical Communication Systems;
卫星光通信系统捕获对准跟踪技术研究
Strong Correlation and Anticorrelation of Resonance Fluorescence via Coherent Population Trapping;
基于相干布居捕获的共振荧光强关联和反关联
Coherent Population Trapping and Optical Bistability by Modulated Fields;
调制场作用下相干布居捕获和光学双稳的研究
Experimental Research on and Theoretical Analysis of Trapping Force on a Particle for Optical Tweezers;
光镊中粒子辐射捕获力的实验研究与理论分析
Study and Simulation of Laser Communication Acquisition System in Mobile Platform-to-Satellite
机动平台与卫星间激光通信捕获系统仿真研究
Study on capture process control technology of opto-electronic tracker
光电跟踪仪目标捕获过程控制技术研究
Effects of localized deformation on acquisition precision in inter-satellite laser communications
星间光通信中局部波前畸变对捕获精度的影响
Various Trap States at the SiGe-SiO_2 Interface Formed by Pulses Laser
脉冲激光作用硅锗合金形成多种捕获界面态
The expression of single photon acquisition probability is deduced from the fundamental-mode Gaussian beam.
基于基模高斯光束,推导了单光子捕获概率的表达式。