基于超构透镜的荧光光学切片显微镜

Yu-hsin Chia, C. H. Chu, S. Vyas, Yi-You Huang, D. Tsai, Yuan Luo
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引用次数: 0

摘要

显微镜是生物医学研究和临床诊断的重要工具。然而,传统的宽视场成像系统缺乏光学切片能力,限制了在厚组织中的应用。最近,HiLo显微镜提高了切片效率,但仍然需要轴向运动。在此,我们提出了moir超透镜来发展基于变焦超透镜的荧光光学切片显微镜。它利用超表面功能来控制光学特性。我们的系统具有光学切片和3D成像能力。我们展示了荧光微球和离体小鼠脑组织的多平面HiLo光学切片图像。这项技术为高对比度显微镜在生物医学研究和临床诊断方面开辟了新的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Moiré metalens-based fluorescence optical sectioning microscopy
Microscopy is an essential tool for biomedical research and clinical diagnosis. Nevertheless, conventional wide-field imaging system lacks optical sectioning ability, restricting applications in thick tissues. Recently, HiLo microscopy improved sectioning efficiency but still requires axial movement. Here, we propose the Moiré metalens to develop the varifocal metalens based fluorescence optical sectioning microscopy. It leveraging metasurfaces capabilities to control optical properties. Our system enables optical sectioning and 3D imaging capability. We demonstrate multiplane HiLo optically sectioned images of fluorescent microspheres and ex-vivo mouse brain tissues. This technique opens new possibilities for high-contrast microscopy in biomedical research and clinical diagnosis.
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