1) optical trapping force
光阱力
1.
The calculation and numerical simulation on optical trapping force in lateral way of One-beam laser optical tweezers;
单光束光镊横向光阱力的计算与仿真分析
2.
In laser field,based on the theory of geometric optics,the optical trapping force which is in y axis way apply on the micro sphere particles lurid cell in the Mie scattering field is calculated quantitatively.
在强聚焦激光光场中,以射线光学(ray-optics)计算模型为基础,对几何尺寸远大于光波长的米氏球状粒子所受激光微束横向(沿y轴方向)光阱力进行了计算。
3.
The quantitative calculation of optical trapping force, by using the ray-optics model, which is based on the theory of geometric optics, the optical trapping force on the micro-sphere particles in the Mie scattering field is calculated quantitatively.
基于几何光学原理,以射线光学计算模型为基础,对几何尺寸远大于光波长的米氏球状粒子所受轴向光阱力进行了计算。
2) optical trap force
光阱力
1.
Capture the cell among the suspension using the optical trap force of tweezers system before the electric field being added,and then add and increase th.
在外加电场力为零时利用激光的陷阱力捕获该细胞,然后施加并逐渐加大外加电场力,直到细胞刚好逃脱光阱力的束缚时的瞬间光阱力,理论上就是细胞所带电荷在电场中产生的库仑力与粘滞力之和。
2.
A new experimental method for calibration of optical trap force upon cells was proposed based on the theory of cells electrophoresis.
提出了一种新的细胞光阱力标定的实验方法,利用细胞电泳原理,设计并研制了一套符合用光镊测力的电动样品池系统,用它替代单光镊操作系统中的普通样品池和高精密压电位移驱动平台,可以用电压调控细胞运动速度,系统相对简单、经济。
3) optical trapping vertical force
轴向光阱力
1.
At the same time,it achieves the procedural quantitative calculation of the optical trapping vertical force.
本文基于MATLAB对光镊操纵米氏球状粒子的轴向光阱力和横向光阱力特性进行模拟,并通过设定连续变化的光束束腰半径、相对折射率、激光波长及功率等系统主要参数,对光阱力特性进行模拟分析,同时实现对横向光阱力讲行程序化的定量计算。
5) escape force
光阱逃逸力
1.
As a force probe,optical tweezers have two important parameters: trap stiffness and escape force.
利用信息熵方法,研究了基于流体力学法标定的光阱刚度和光阱逃逸力。
补充资料:单量子阱(见量子阱)
单量子阱(见量子阱)
single quantum well
单且子阱sillgle quantum well见量子阱。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条