A novel optical voltage sensor is proposed which is based on the angular optical biasing in uniaxial electrooptic crystal.
提出了一种利用单轴电光晶体自身角度光偏置的新型光学电压传感器,其光学传感单元由夹在两个正交偏振器之间的一个单轴电光晶体组成。
The optical absorption of carbon nanotubes(CNTs)has relation with optical polarization direction.
碳纳米管对光的吸收与光的偏振方向有关,光偏振方向与碳纳米管管轴方向平行时光吸收最强,光偏振方向与碳纳米管管轴方向垂直时光吸收最弱。
Furthermore, the reason of optical polarization of the arrays in the visible and infrared wavelength regions is analyzed.
报道了组装在氧化铝模板中的银纳米线有序阵列光偏振的数值计算结果。
Rapid detection of HPV16 E7 point mutation at codon 29 with fluorescence polarization;
荧光偏振方法快速检测HPV16 E7第29位密码子点突变
Detection of mutations of HBV polymerase gene in serum by fluorescence polarization;
荧光偏振检测血清中HBV多聚酶基因突变
Based on the fluorescence polarization technology of gene detection analysis system;
基于荧光偏振技术的基因检测分析系统
To study the influence of curvature on the propagation properties of laser-induced Rayleigh waves on curved surfaces,transient Rayleigh waves are generated by pulse laser action on the surfaces of aluminium cylinders with different diameters(10 mm,15 mm,20 mm,25 mm and 30 mm),and the waveforms are detected by the fiber-coupled beam deflection method.
实验中,采用基于光偏转原理的光纤传感装置,检测了沿直径为10 mm、15 mm、20 mm、25 mm和30 mm等5种圆柱样品侧面传播的Rayleigh波波形。
By means of a new method based on a fiber-coupling optical beam deflection technique, a detailed experimental study has been made to clarify the characteristics of shock waves in different media.
论文的实验结果与分析表明实验采用的基于光偏转法的光纤传感器可以用来测量各种透明介质中冲击波波前参量的特性。
High-speed photopolarimeter based on a linear neural network;
基于线性神经网络的高速光偏振仪
Based on optical beam deflection(OBD),a fiber-optic diagnostic system is proposed to investigate the propagation of a laser-induced plasma shock wave and the oscillation of a cavitation bubble.
采用自行研制的光偏转测试系统对强激光诱导液体物质的空化现象进行了实验研究。
By means of a high-sensitive fiber-optic sensor,which was developed in Nanjing University of Science & Technology based on optical beam deflection,the maximum radii of a laser-induced cavitation bubble in the vicinity of an aluminum target in water was carefully measured during the three oscillating cycles.
采用自行研制的高灵敏度的光偏转测试系统,测量了激光泡在不同激光能量作用下前三次脉动空泡的最大半径,结果表明在作用相同激光能量的情况下,随着脉动次数的增加,最大泡半径依次减小;对应于同一次脉动,随着激光能量的增加,最大泡径呈增加趋势;在此基础上分析了各次脉动过程中空泡泡能衰减的规律,取得了理论和实验在误差范围内相一致的结果。