光学捕获;光陷捕获
trapping───v.(使)陷入困境;被卡住;收集;把……逼进;设陷阱捕捉(动物);(使)陷入圈套;停(球);给(马)戴马饰;储存(气体、水等)(trap的现在分词);n.(装饰性的)马衣
optical───adj.光学的;眼睛的,视觉的
optical rotation───旋光度,旋光性,(光学的)偏振转;[光]旋光度;[光]旋光性;偏振转
optical stores───眼镜店
optical microscope───[光]光学显微镜
optical disc───光具盘,频闪观测盘;[计]光盘;光具盘;频闪观测盘
acadian optical───阿卡迪亚光学
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。
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。
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。
In this paper, we describe how the T-matrix approach can be used to computer optical trapping force.───论述了如何使用T矩阵方法进行光阱力计算。
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
Mechanical effects of light and measurement of optical trapping force───光的力学效应及光阱力的测量
Calculation and Numerical Simulation of Optical Trapping Force by Micro-beam Laser on Micro-Sphere Particles───激光微束对球状介质粒子光阱力的计算与仿真分析
Compare for Calibration Methods to Optical Trapping Force Upon Non-spherical Biological Cells───两种非球形细胞光镊阱力标定方法的比较
Optical Trapping of Biological Cells Using a Femtosecond Laser Tweezers───利用飞秒激光光镊捕获生物细胞
Stable optical trapping of human red blood cells (RBCs), Haematococcus pluvialis Flotow cells and Xanthophyllomyces dendrorhous cells was achieved using this system.
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.
We measured the optical trapping capability and Q-values of the femtosecond laser tweezers in comparison with CW laser tweezers.
- sap sto">fibre───光学纤维;光导纤维;光学(玻璃)纤维,光导纤维
muskrat trapping───诱捕麝鼠
optical rotation───旋光度,旋光性,(光学的)偏振转;[光]旋光度;[光]旋光性;偏振转
optical stores───眼镜店
optical microscope───[光]光学显微镜
optical disc───光具盘,频闪观测盘;[计]光盘;光具盘;频闪观测盘
acadian optical───阿卡迪亚光学
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。
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。
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。
In this paper, we describe how the T-matrix approach can be used to computer optical trapping force.───论述了如何使用T矩阵方法进行光阱力计算。
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
Mechanical effects of light and measurement of optical trapping force───光的力学效应及光阱力的测量
Calculation and Numerical Simulation of Optical Trapping Force by Micro-beam Laser on Micro-Sphere Particles───激光微束对球状介质粒子光阱力的计算与仿真分析
Compare for Calibration Methods to Optical Trapping Force Upon Non-spherical Biological Cells───两种非球形细胞光镊阱力标定方法的比较
Optical Trapping of Biological Cells Using a Femtosecond Laser Tweezers───利用飞秒激光光镊捕获生物细胞
Stable optical trapping of human red blood cells (RBCs), Haematococcus pluvialis Flotow cells and Xanthophyllomyces dendrorhous cells was achieved using this system.
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.
We measured the optical trapping capability and Q-values of the femtosecond laser tweezers in comparison with CW laser tweezers.