基于DMD调制的结构光照明超分辨和光切片显微技术研究进展(特邀)  被引量：1

作　　者：马旺 千佳 王思颖 马睿 李星 党诗沛 栗星 柏晨 但旦[1,2] 姚保利 Ma Wang;Qian Jia;Wang Siying;Ma Rui;Li Xing;Dang Shipei;Li Xing;Bai Chen;Dan Dan;Yao Baoli(State Key Laboratory of Transient Optics and Photonics,Xian Institute of Optics and Precision Mechanics,Chinese Academy of Sciences,Xian 710119,Shaani,China;University of Chinese Academy of Sciences,Beijing 100049,China)

机构地区：[1]中国科学院西安光学精密机械研究所瞬态光学与光子技术国家重点实验室,陕西西安710119 [2]中国科学院大学,北京100049

出　　处：《激光与光电子学进展》2024年第6期1-24,共24页Laser & Optoelectronics Progress

基　　金：国家重点研发计划项目(2021YFF0700303);国家自然科学基金(12274451,12127805,62335018);中国博士后科学基金(2022M713338);陕西省重点研发计划(2022GY-083);西安光机所所级中心高端科学仪器国产化及核心部件开放基金(SJZ1-202206001)。

摘　　要：将普通光学显微镜的均匀照明替换为光场具有空间结构分布的照明,可为显微镜增添超分辨和光切片的新功能。结构光照明显微(SIM)技术与传统宽场光学显微镜具有良好的结构兼容性,继承了传统光学显微镜非侵入、低光毒性、低荧光漂白、快速成像的优点。其高时空分辨率和三维光切片能力非常适合活体细胞或组织的观测,受到生物医学和光学界的持续关注。快速产生高对比度、高频率的结构光场并进行快速相移和旋转调控是SIM的核心技术。近年来基于数字微镜器件(DMD)调制的SIM(DMD-SIM)发展迅速,它利用DMD高刷新率、高光通量、偏振不敏感的优势,克服了传统器件如物理光栅和液晶空间光调制器在调控速度上的缺点。本综述首先介绍了SIM超分辨和光切片的基本原理,然后着重阐述了DMD-SIM通过光投影和光干涉产生结构光照明及调控光场的方法,对当前的DMD-SIM研究进展进行了归纳评述,总结了DMD-SIM的优缺点,最后对DMD-SIM面临的挑战和发展趋势进行了展望。Conventional optical microscopes can achieve super-resolution and optical sectioning capabilities by replacing the source of uniform illumination with structured illumination module.Because of the configuration compatibility with the conventional wide-field optical microscope,the structured illumination microscopy(SIM)inherits the merits of non-invasiveness,low phototoxicity,low photo-bleaching,and fast imaging speed.The high spatiotemporal resolution and three-dimensional optical sectioning abilities of SIM are highly suitable for the observation of living cells or tissues.Thus,SIM has attracted continuous attention by the biomedical and optical communities.The core techniques of SIM are fast fringe generation with high contrast and high frequency,as well as fast phase shifting and fringe rotation.The digital micromirror device(DMD)based SIM(DMD-SIM)has undergone rapid development in recent years.DMD-SIM,taking the advantages of high refreshing rate,high photon flux efficiency,and insensitive to polarization,has overcome the drawbacks of the low modulation speeds of traditional devices,e.g.,physical gratings and liquid crystal spatial light modulators.First,the basic principles of SIM for super-resolution and optical sectioning are introduced.Then it focuses on the DMD-SIM for generation of structured illuminations by using either beam projection or beam interference methods.Furthermore,the advances in DMD-SIM technology are reviewed,and the advantages and disadvantages of DMD-SIM are summarized.Finally,the challenges and the outlook for DMD-SIM are anticipated.

关 键 词：光学显微 结构光照明显微 超分辨 光切片 数字微镜器件 

分 类 号：Q63[生物学—生物物理学]