超分辨率显微镜中的自适应光学。

Jingyu Wang, Yongdeng Zhang
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引用次数: 2

摘要

荧光显微镜已成为一种常规的工具,在生物学中询问生命活动的最小扰动。虽然荧光显微镜的分辨率在理论上仅由光的衍射决定,但在实践中可获得的分辨率也受到光学像差的存在的限制。在过去的二十年里,超分辨率显微镜的出现克服了衍射障碍,使许多纳米尺度的生物研究成为可能。自适应光学是一种借鉴于天文成像的技术,在过去的十年里,它已经被应用于校正几乎所有显微镜模式的光学像差,特别是在超分辨率显微镜中,以恢复最佳的图像质量和分辨率。本文简要介绍了自适应光学的基本概念和主要超分辨成像技术的工作原理。我们重点介绍了自适应光学在超分辨率显微镜中主动和动态像差校正方面的一些最新实现和进展。
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Adaptive optics in super-resolution microscopy.

Fluorescence microscopy has become a routine tool in biology for interrogating life activities with minimal perturbation. While the resolution of fluorescence microscopy is in theory governed only by the diffraction of light, the resolution obtainable in practice is also constrained by the presence of optical aberrations. The past two decades have witnessed the advent of super-resolution microscopy that overcomes the diffraction barrier, enabling numerous biological investigations at the nanoscale. Adaptive optics, a technique borrowed from astronomical imaging, has been applied to correct for optical aberrations in essentially every microscopy modality, especially in super-resolution microscopy in the last decade, to restore optimal image quality and resolution. In this review, we briefly introduce the fundamental concepts of adaptive optics and the operating principles of the major super-resolution imaging techniques. We highlight some recent implementations and advances in adaptive optics for active and dynamic aberration correction in super-resolution microscopy.

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来源期刊
CiteScore
1.30
自引率
0.00%
发文量
117
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