激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
8期
874-878
,共5页
王永强%诸波%胡芳仁%茅帅帅%夏丽%仉乐
王永彊%諸波%鬍芳仁%茅帥帥%夏麗%仉樂
왕영강%제파%호방인%모수수%하려%장악
分布式反馈激光器%波长可调%Comsol Multiphysic%硅基光微机电系统
分佈式反饋激光器%波長可調%Comsol Multiphysic%硅基光微機電繫統
분포식반궤격광기%파장가조%Comsol Multiphysic%규기광미궤전계통
distributed deedback laser%wavelength tunable%Comsol Multiphysics%Si-based optical microelectrome-chanical
基于严格耦合波以及介质平板波导理论,构建了硅基氮化镓分布反馈激光器的二维稳态物理模型。且利用多物理场直接耦合分析软件Comsol Multiphysics求解波动方程,得到了分布反馈激光器在可见光各波段形成单模输出的电场模一维、二维图谱,以及相对应的入射波长与电场模关系曲线。结合硅基光微机电系统技术和微加工技术,本文提出利用悬空的自支撑氮化镓周期可调光子光栅实现分布反馈激光器波长可调。数值模拟表明,在光栅的格子数目、光栅厚度、光栅宽度以及有源层厚度一定的情况下,改变光栅周期可以实现分布反馈激光器输出不同波长激光。理论分析与仿真结果基本一致,证明所建立激光器模型具有一定的合理性,得出的仿真数据为实现分布反馈激光器波长可调提供了有意义的参考。
基于嚴格耦閤波以及介質平闆波導理論,構建瞭硅基氮化鎵分佈反饋激光器的二維穩態物理模型。且利用多物理場直接耦閤分析軟件Comsol Multiphysics求解波動方程,得到瞭分佈反饋激光器在可見光各波段形成單模輸齣的電場模一維、二維圖譜,以及相對應的入射波長與電場模關繫麯線。結閤硅基光微機電繫統技術和微加工技術,本文提齣利用懸空的自支撐氮化鎵週期可調光子光柵實現分佈反饋激光器波長可調。數值模擬錶明,在光柵的格子數目、光柵厚度、光柵寬度以及有源層厚度一定的情況下,改變光柵週期可以實現分佈反饋激光器輸齣不同波長激光。理論分析與倣真結果基本一緻,證明所建立激光器模型具有一定的閤理性,得齣的倣真數據為實現分佈反饋激光器波長可調提供瞭有意義的參攷。
기우엄격우합파이급개질평판파도이론,구건료규기담화가분포반궤격광기적이유은태물리모형。차이용다물리장직접우합분석연건Comsol Multiphysics구해파동방정,득도료분포반궤격광기재가견광각파단형성단모수출적전장모일유、이유도보,이급상대응적입사파장여전장모관계곡선。결합규기광미궤전계통기술화미가공기술,본문제출이용현공적자지탱담화가주기가조광자광책실현분포반궤격광기파장가조。수치모의표명,재광책적격자수목、광책후도、광책관도이급유원층후도일정적정황하,개변광책주기가이실현분포반궤격광기수출불동파장격광。이론분석여방진결과기본일치,증명소건립격광기모형구유일정적합이성,득출적방진수거위실현분포반궤격광기파장가조제공료유의의적삼고。
Based on the rigorous coupled-wave theory and dielectric slab waveguide theory,a two-dimensional steady physical model is constructed for a silicon-based GaN distributed feedback (DFB)laser.The wave equation is solved by multiphysics field coupling analysis software Comsol Multiphysics,one-dimensional and two-dimensional electric field modes of the DFB laser’s single mode output in visible wavelength region is obtained,and the corresponding re-lationship between the incident wavelength and the electric field mode is also obtained.Combined with silicon-based optical MEMS technology and micro-machining technology,a wavelength-tunable GaN DFB laser with self-supported gallium nitride periodic photonic grating is proposed.Numerical simulation shows that different single mode wavelength output from the GaN DFB laser can be realized with a certain number of grating lattice,grating height,grating width and active layer thickness.The theoretical analysis and the simulation results are consistent,which proves that this la-ser model has certain rationality.The simulation data provide a meaningful reference for the realization of the tunable wavelength from the GaN DFB laser.
