迈向亚波长像素:用于超小型高效 CMOS 图像传感器的纳米光子色彩路由器

Chan Y. Park, Sangbin Lee, Taeho Lee, Jiwon Kang, Jaehyun Jeon, Chaejin Park, Sanmun Kim, Haejun Chung, M. Jang
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摘要

随着智能手机的普及和相机模块的广泛应用,需要高像素密度的 CMOS 图像传感器。近来,像素微型化的竞争使亚微米像素的商用 CMOS 传感器尺寸小至 0.5 微米。然而,由于传统微透镜阵列的聚焦能力不断减弱以及吸收性彩色滤光片带来的光学效率限制,传统的聚焦和滤光方法在进一步缩小亚波长像素尺寸方面面临着根本性挑战。纳米光子色彩路由器的出现,通过高效的空间光谱分割克服了这些挑战,从而将入射光导入相应的像素。特别是自由形态器件优化方法的最新发展,使人们能够通过探索大型组合设计空间来设计高效彩色路由器,而这在以前被认为是传统设计方法难以解决的问题。在这篇综述中,我们全面介绍了 CMOS 图像传感器用纳米光子色彩路由器领域的众多研究成果,并特别强调了其设计方法。
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Towards subwavelength pixels: Nanophotonic color routers for ultra-compact high-efficiency CMOS image sensors
The proliferation of smartphones and the widespread use of camera modules necessitate CMOS image sensors with high pixel density. The recent competitive race to miniaturize pixels has enabled commercial CMOS sensors with submicron pixels to reach sizes as small as 0.5 μm. However, further downsizing towards subwavelength pixels faces fundamental challenges as the conventional focus-and-filter approach suffers from the diminishing focusing ability of conventional microlens arrays and optical efficiency constraints imposed by absorptive color filters. Nanophotonic color routers have emerged to overcome these challenges via efficient spatiospectral splitting, thereby directing incident light into corresponding pixels. In particular, recent developments in free-form device optimization methods enable the design of highly efficient color routers by exploring a large combinatorial design space, which was previously considered to be intractable with conventional design methods. In this review, we comprehensively introduce a multitude of research achievements in the field of nanophotonic color routers for CMOS image sensors with a special emphasis on their design methodologies.
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