《红外与激光工程》“超分辨成像技术”专题征稿

发布时间：2018-01-10 19:27

本文关键词：《红外与激光工程》“超分辨成像技术”专题征稿　出处：《红外与激光工程》2017年07期 　论文类型：期刊论文

【摘要】：正光学显微技术已成为一个展示前瞻性课题,在生命、医学、材料、化学等领域有重要应用,显微成像技术在人们探索微观世界中发挥着重要作用。为了实现超高分辨率成像,国内外学者尝试不同方法打破瑞利-阿贝衍射极限。近年来光学显微镜的分辨率已经从数百纳米提升至几纳米,其成为研究微观表面结构和动态过程的强大技术。代表性显微成像技术有:光激活定位显微技术(PALM)、随机光学重构显微技术(STORM)、受激发射损耗显微技术(STED)、结构照明显微技
[Abstract]:Positive optical microscopy has become a prospective subject, and has important applications in life, medicine, materials, chemistry and other fields. Micro-imaging technology plays an important role in exploring the micro-world. In order to achieve ultra-high resolution imaging. Scholars at home and abroad have tried different methods to break the Rayleigh Abbe diffraction limit. In recent years, the resolution of optical microscope has been raised from hundreds of nanometers to several nanometers. It has become a powerful technique to study the microstructure and dynamic process of the surface. The typical microscopic imaging techniques include: photo-activated localization microscopy (PALMU), stochastic optical reconstruction microscopy (STORM). The technique of stimulated radiation loss Microscopy (STEDT) and structural Lighting Microtechnology
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【正文快照】： 光学显微技术已成为一个展示前瞻性课题,在生命、医学、材料、化学等领域有重要应用,显微成像技术在人们探索微观世界中发挥着重要作用。为了实现超高分辨率成像,国内外学者尝试不同方法打破瑞利-阿贝衍射极限。近年来光学显微镜的分辨率已经从数百纳米提升至几纳米,其成为研

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