从微通道板光电倍增模型着手,深入研究复合波导阳极的透射与位敏阳极对真空倍增系统造成的约束条件,并采用Mott插值方法研究了该新型光电器件电子光学特性。首先介绍了复合波导阳极结构与工作原理,给出了透射阳极与位敏阳极之间的对应关系,在此基础上分析了高速信号检测功能和入射光轴精确定位功能的约束关系,给出了相应的器件设计与实验方法,最后在真空炉中进行了该新型器件的验证性试验。试验结果表明了这种新型器件在理论和实践层面的可行性,但探索极间隧穿电压自适应调整机制将成为拓展其应用场合的必然趋势。 Based on the model of microchannel plate photomultiplication, the transmission of the composite waveguide anode and the constraints on the vacuum multiplication system by the location-sensitive anode are studied in detail. The optical characteristics of the novel photovoltaic device are studied by Mott interpolation. Firstly, the structure and working principle of the composite waveguide anode are introduced. The corresponding relationship between the transmitting anode and the bit-sensing anode is given. Based on the analysis, the constraint relationship between the high-speed signal detection function and the precise positioning function of the incident optical axis is analyzed. The corresponding device design and experimental methods, the final verification test of the new device was carried out in a vacuum furnace. The experimental results show the feasibility of this new device at the theoretical and practical level. However, exploring the adaptive adjustment mechanism of tunneling voltage will become an inevitable trend to expand its application.