激光与光电子学进展, 2017, 54 (9): 090003, 网络出版: 2017-09-06
自适应宽场高分辨率显微成像技术的研究进展 下载: 860次
Research Progress on Adaptive Wide-Field Microscopic Imaging Technology with High Resolution
自适应光学 宽场显微成像 数字全息 非相干数字全息 adaptive optics wide-field microscopic imaging digital holography incoherent digital holography
摘要
光学显微成像技术可以用来观察微小物体的结构细节, 但在生物样品的显微成像领域中, 像差的存在使得任何显微成像技术的成像质量都无法达到理论预期。为了解决这一问题, 自适应光学技术被应用于不同类型的显微成像系统中进行像差的探测和校正。着重总结了自适应宽场高分辨率显微成像技术的研究动态, 阐明了数字全息自适应光学技术和非相干数字全息自适应光学技术的特点、优势以及存在的问题。
Abstract
Optical microscopic imaging technology makes it possible to observe the fine structure of tiny samples. However, in the field of microscopic imaging of biological samples, the aberration makes the imaging quality of any microscopic imaging technology unable to achieve the theoretical expectation. For the purpose of improving imaging quality, adaptive optics technology is applied to different types of microscopic imaging systems for aberration detection and correction. In this study, the research of adaptive wide-field microscopy imaging system is illustrated in detail. Furthermore, we demonstrate the characteristics, advantages and existing problems of the digital holography and incoherent digital holography adaptive optics technologies.
徐洋, 满天龙, 万玉红. 自适应宽场高分辨率显微成像技术的研究进展[J]. 激光与光电子学进展, 2017, 54(9): 090003. Xu Yang, Man Tianlong, Wan Yuhong. Research Progress on Adaptive Wide-Field Microscopic Imaging Technology with High Resolution[J]. Laser & Optoelectronics Progress, 2017, 54(9): 090003.