通过对微光纤法布里-珀罗(F-P)腔滤波器工作原理的综合分析,确立了微F-P腔滤波器静电驱动腔长调谐方案。对可调谐滤波器的主体部分进行光学设计和; 分析,确立了反射镜的多层薄膜光学结构,并借助ANSYS有限元力电耦合分析,最终选择L型桥臂支撑的腔体结构,可以实现0.625; mum的调谐范围;保持桥面平行的能力很高,可实现高精度的滤波效果;结构稳固,能够抵抗制造时的残余应力。By comprehensive analysis on working principle of micro F-P cavity; filter,the optimum tuning scheme of micro F-P cavity filter is; established. The main part of the optical structure is designed, a; multilayer film structures of the mirror is established,and with the; help of ANSYS finite element electro-mechanical coupling analysis,L type; bridge arm supported cavity structure is finally established, the; structure can achieve a considerable range of tuning 0.625 mum;; relatively high fill factor,filter light leakage is avoided; the high; ability to keep parallel can achieve high precision filtering effect;; structural stability can resist the residual stress of manufacture.深圳市科技计
