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高分辨和超分辨光学成像技术在空间和生物中的应用
引用本文:姚保利,雷铭,薛彬,郜鹏,严绍辉,赵惠,赵卫,杨建峰,樊学武,邱跃洪,高伟,赵葆常,李英才. 高分辨和超分辨光学成像技术在空间和生物中的应用[J]. 光子学报, 2014, 40(11): 1607-1618. DOI: 10.3788/gzxb20114011.1607
作者姓名:姚保利  雷铭  薛彬  郜鹏  严绍辉  赵惠  赵卫  杨建峰  樊学武  邱跃洪  高伟  赵葆常  李英才
作者单位:a. 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 高分辨光学成像技术联合研究室, 西安 710119;
b. 中国科学院西安光学精密机械研究所 空间光学技术研究室, 西安 710119
基金项目:国家自然科学基金项目(No.10874240, No. 61077005)和国家重大科学研究计划项目(No. 2012CB921900)资助
摘    要:大到天文光学望远镜观察浩瀚的宇宙, 小到光学显微镜探察细微的纳米世界, 光学成像技术在人类探索和发现未知世界奥秘的活动中扮演着至关重要的角色. 看得更远、看得更细、看得更清楚是人们不断追求的目标. 传统光学理论已证明所有经典光学系统都是一个衍射受限系统, 即光学系统空间分辨率的物理极限是由光的波长和系统的相对孔径(或数值孔径)决定的. 能否突破这个极限?能否不断提高光学系统的成像分辨率?围绕着这个问题, 本文综述了近年来开展的各种光学高分辨和超分辨成像技术, 及其在空间探测和生物领域中的应用.

关 键 词:高分辨  超分辨  光学成像  空间光学遥感  显微成像
收稿时间:2011-10-22

Progress and Applications of High-resolution and Super-resolution Optical Imaging in Space and Biology
YAO Bao-li,LEI Ming,XUE Bin,GAO Peng,YAN Shao-hui,ZHAO Hui,ZHAO Wei,YANG Jian-feng,FAN Xue-wu,QIU Yue-hong,GAO Wei,ZHAO Bao-chang,LI Ying-cai. Progress and Applications of High-resolution and Super-resolution Optical Imaging in Space and Biology[J]. Acta Photonica Sinica, 2014, 40(11): 1607-1618. DOI: 10.3788/gzxb20114011.1607
Authors:YAO Bao-li  LEI Ming  XUE Bin  GAO Peng  YAN Shao-hui  ZHAO Hui  ZHAO Wei  YANG Jian-feng  FAN Xue-wu  QIU Yue-hong  GAO Wei  ZHAO Bao-chang  LI Ying-cai
Affiliation:a. Joint Research Laboratory of High-resolution Optical Imaging, State Key Laboratory of Transient Optics and Photonics, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an 710119, China;
b. Laboratory of Space Optical Technology, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an 710119, China
Abstract:Large to observe the boundless expanse of universe with astronomical optical telescopes, small to detect the infinitesimal nano-world with optical microscopes, optical imaging technology plays a very important role for human beings in the exploration and discovery of the mysteries of the unknown world. To see farther, to see more details and to see more clearly are people's constantly pursuing goal. The traditional optics theory has proved that all classical optical systems are diffraction-limited, i.e., the physical limit of the spatial resolution of optical systems is determined by the light wavelength and the relative aperture (or numerical aperture) of the system. Can this diffraction-limited barrier be broken through? Is it possible to continue to improve the imaging resolution of optical systems? Around this issue, this paper reviews the recent progress of a variety of high-resolution and super-resolution optical imaging techniques, and their developments in the fields of space exploration and biological applications.
Keywords:High-resolution  Super-resolution  Optical imaging  Space optical remote sensing  Microscopy
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