红外与毫米波学报
紅外與毫米波學報
홍외여호미파학보
JOURNAL OF INFRARED AND MILLIMETER WAVES
2004年
6期
401-404
,共4页
疏小舟%吴砚瑞%陈效双%褚君浩
疏小舟%吳硯瑞%陳效雙%褚君浩
소소주%오연서%진효쌍%저군호
量子阱红外探测器(QWIP)%时域有限差分法(FDTD)%衍射光栅
量子阱紅外探測器(QWIP)%時域有限差分法(FDTD)%衍射光柵
양자정홍외탐측기(QWIP)%시역유한차분법(FDTD)%연사광책
quantum well infrared photodetector(QWIP)%finite difference time domain(FDTD)%diffracting grating
由于量子选择定则的限制,对于量子阱红外探测器(QWIP),必须利用衍射光栅增强其光学耦合效率.本文给出了一种基于时域有限差分法(FDTD)的数值方法,计算制备在QWIP器件上的金属光栅的衍射效应.模拟计算的结果表明,FDTD方法是解析这种复杂结构内电磁场问题的有效手段.可以计算QWIP器件内各点电磁场所有分量的详细分布,进而可以估算衍射光栅的耦合效率,以及优化QWIP结构设计.
由于量子選擇定則的限製,對于量子阱紅外探測器(QWIP),必鬚利用衍射光柵增彊其光學耦閤效率.本文給齣瞭一種基于時域有限差分法(FDTD)的數值方法,計算製備在QWIP器件上的金屬光柵的衍射效應.模擬計算的結果錶明,FDTD方法是解析這種複雜結構內電磁場問題的有效手段.可以計算QWIP器件內各點電磁場所有分量的詳細分佈,進而可以估算衍射光柵的耦閤效率,以及優化QWIP結構設計.
유우양자선택정칙적한제,대우양자정홍외탐측기(QWIP),필수이용연사광책증강기광학우합효솔.본문급출료일충기우시역유한차분법(FDTD)적수치방법,계산제비재QWIP기건상적금속광책적연사효응.모의계산적결과표명,FDTD방법시해석저충복잡결구내전자장문제적유효수단.가이계산QWIP기건내각점전자장소유분량적상세분포,진이가이고산연사광책적우합효솔,이급우화QWIP결구설계.
Diffraction grating is indispensable for quantum well infrared photodetectors(QWIP) in order to improve optical coupling because of the limitation of quantum selection rules. A numerical approach based on finite difference time domain(FDTD) method was presented for investigating the diffraction effect of a metal grating fabricated in QWIP. Simulation results demonstrate that such a complicated structure can be optimized by electromagnetic analysis based on the FDTD method. Detailed field distribution inside QWIP can be obtained for estimating the optical coupling efficiency of the grating.
