1·We have implemented a femtosecond laser tweezers, and the stable optical trapping of human red blood cells(RBC) was observed.
采用自行搭建的飞秒激光光镊,实现了对人体血红细胞(RBC)的稳定捕获。
2·In experiment, it is reason to choose above parameters for different medium particles, so as to get bigger optical trapping force and optical trapping rigidity.
针对不同介质粒子合理选择上述参量,以得到较大光阱力和光阱刚度。
3·Effects of spherical aberration caused by the refractive mismatch between objective oil and medium water on optical trapping force is calculated quantitatively and also analyzed.
对显微镜物镜浸油与媒质水溶液折射率不同所产生的球差对光阱力的影响进行了定量计算与数值分析。
4·By using Electromagnetic Model, the quantitative analysis is also presented, which is about the optical trapping force of Rayleigh particle much smaller than the laser wavelength.
基于电磁场模型,对几何尺寸远小于激光波长的瑞利粒子所受的光阱力进行了分析。
5·Trapping these systems in periodic potential wells made by intersecting light beams yields optical lattices in which atoms behave as electrons in metals, albeit at a quite different scale.
在周期势阱中研究这个系统,发现相干光产生光学晶格能够使原子具有了金属中的自由离子的性质,尽管看起来截然不同。
6·Mechanism of electron trapping optical storage and storage properties in different material was reviewed in detail. Some problems related with utilities were discussed.
着重介绍了电子俘获材料光存储机制,以及各种材料的存储特性,并探讨了存在的问题。
7·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。
8·In this paper the optical spectral properties and electron-trapping mechanism.
本文报道了有关的光谱特性和电子俘获机制。
9·The influences of optical phonon modes on polaron self-trapping energies as functions of well width are given respectively.
同时给出光学声子对极化子自陷能影响随阱宽的变化关系。
10·As a kind of optical functional materials, electron trapping materials (ETM) has two distinct properties of excellent optical storage and fast infrared up-conversion at room temperature.
电子俘获材料(etm)是一种在常温下同时具有光信息存储和红外上转换两种特性的光学功能材料。