Objective:Inflammation plays a critical role in secondary brain damage after intracerebral hemorrhage (ICH).However,the mechanisms of inflammatory injury follow
基于Pockels效应的光学电压传感器(Optical Voltage Transducer,OVT),运行中不可避免地存在震动、元器件连接的老化与热胀冷缩等问题,导致光学器件的相互位置产生偏移,进而影响电光晶体的内电场分布。文中以基于会聚偏光干涉原理的110 k V纵向调制的OVT为例,进行了仿真分析与实验研究,发现当入射光发生±0.5°的偏移或电光晶体发生±1°的偏移时,分别引入约0.107%