用于窄带图像传感器的高角度容限传输滤波器

F. Omeis, M. Besbes, C. Sauvan, H. Benisty
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引用次数: 4

摘要

提出了一种由亚波长光栅夹在两个少层分布布拉格反射器(DBRs)之间组成的介电透射滤波器,其目的是与CMOS技术兼容,并且在不需要改变厚度的情况下通过光刻方法可调谐光栅图案,以实现超材料的广泛精神。DBR反射镜形成一个Fabry-Perot (FP)腔,其谐振频率可以通过改变腔的有效折射率来调整,这里通过调整光栅的面内填充因子。利用傅里叶模态法(FMM)对结构进行了数值模拟研究和设计。该滤波器具有高宽角公差,可达±30˚。这一特性对于评估窄带滤波器的光谱性能至关重要,尤其是所谓的环境光传感器(ALS)。通过对透射率光谱分布的分析,发现角容差是由于腔内FP与导模之间的耦合,类似于不同情况下多模周期波导内发生的共振。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Highly Angular Tolerant Transmission Filters for Narrow-Band Image Sensors
A dielectric transmittance filter composed of subwavelength grating sandwiched between two few-layers distributed Bragg reflectors (DBRs) is proposed with the aim of being compatible with CMOS technology and to be tunable by lithographic means of the grating pattern without the need of thickness changes, in the broad spirit of metamaterials. The DBR mirrors form a Fabry-Perot (FP) cavity whose resonant frequency can be tuned by changing the effective refractive index of the cavity, here, by tailoring the in-plane filling factor of the grating. The structure has been studied and designed by performing numerical simulations using Fourier Modal Method (FMM). This filter proves to have high broad angular tolerance up to ±30˚. This feature is crucial for evaluating the spectral performance of narrow-band filters especially the so-called Ambient light sensors (ALS). By analyzing the transmittance spectral distributions in the band diagram, it is found that the angular tolerance is due to coupling between the FP and the guided mode inside the cavity in analogy to resonances occurring within multimode periodic waveguides in a different context.
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