CMOS 图像传感器中色彩路由器的逆向设计：尽量减少像素间串扰

IF 6.5 2区物理与天体物理 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nanophotonics Pub Date : 2024-07-01 DOI:10.1515/nanoph-2024-0269

Sangbin Lee, Jaehyun Hong, Joonho Kang, Junjeong Park, Jaesung Lim, Taeho Lee, Min Seok Jang, Haejun Chung

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引用次数: 0

摘要

在过去十年中，图像传感器像素的微型化推动了高分辨率成像技术的长足进步。然而，像素尺寸缩小到亚微米级，导致彩色滤光片和微透镜阵列的效率降低。开发可在可见光波长下工作的彩色路由器，为进一步实现微型化提供了广阔的前景。尽管如此，由于依赖于周期性边界条件，现有的彩色路由器经常会遇到严重的像素间串扰，约为 70%。在这里，我们提出了像素间串扰最小化的彩色路由器，其像素内光学效率达到了前所未有的 87.2%，并将像素间串扰显著降低到 2.6%。这种彩色路由器是通过邻接优化设计的，采用了定制的入射波，以最大限度地减少像素间串扰。我们的研究结果表明，我们的彩色路由器设计在像素内光学效率方面超越了现有的彩色路由技术，在推动下一代固态图像传感器商业化方面迈出了关键的一步。

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Inverse design of color routers in CMOS image sensors: toward minimizing interpixel crosstalk

Over the past decade, significant advancements in high-resolution imaging technology have been driven by the miniaturization of pixels within image sensors. However, this reduction in pixel size to submicrometer dimensions has led to decreased efficiency in color filters and microlens arrays. The development of color routers that operate at visible wavelengths presents a promising avenue for further miniaturization. Despite this, existing color routers often encounter severe interpixel crosstalk, around 70 %, due to the reliance on periodic boundary conditions. Here, we present interpixel crosstalk-minimized color routers that achieve an unprecedented in-pixel optical efficiency of 87.2 % and significantly reduce interpixel crosstalk to 2.6 %. The color routers are designed through adjoint optimization, incorporating customized incident waves to minimize interpixel crosstalks. Our findings suggest that our color router design surpasses existing color routing techniques in terms of in-pixel optical efficiency, representing a crucial step forward in the push toward commercializing the next generation of solid-state image sensors.

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来源期刊

Nanophotonics NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

13.50

自引率

6.70%

发文量

358

审稿时长

7 weeks

期刊介绍： Nanophotonics, published in collaboration with Sciencewise, is a prestigious journal that showcases recent international research results, notable advancements in the field, and innovative applications. It is regarded as one of the leading publications in the realm of nanophotonics and encompasses a range of article types including research articles, selectively invited reviews, letters, and perspectives. The journal specifically delves into the study of photon interaction with nano-structures, such as carbon nano-tubes, nano metal particles, nano crystals, semiconductor nano dots, photonic crystals, tissue, and DNA. It offers comprehensive coverage of the most up-to-date discoveries, making it an essential resource for physicists, engineers, and material scientists.