基于随机脉冲编码的超分辨显微成像算法研究 下载: 535次
[1] Abbe E. Beitragezur Theorie des Mikroskops und der mikroskopischen Wahrnehmung[J]. Archiv Für Mikroskopische Anatomie, 1970, 9(1): 413-418.
[2] Pawley J B, Masters B R. Handbook of biological confocal microscopy[J]. Optical Engineering, 1996, 35(9): 2765-2766.
[3] 姚骏恩. 电子显微镜的现状与展望[J]. 电子显微学报, 1998, 17(6): 767-776.
Yao Junen. The present situation and prospect of electron microscope[J]. Journal of Chinese Electron Microscopy Society, 1998, 17(6): 767-776.
[4] Chi K R. Super-resolution microscopy: Break the limit[J]. Nature Methods, 2009, 6: 15-18.
[5] Hell S W, Stelzer E H K. Fundamental improvement of resolution with a 4 Pi-confocal fluorescence microscope using two-photon excitation[J]. Optics Communications, 1992, 93(5-6): 277-282.
[6] Hell S W. Toward fluorescence nanoscopy[J]. Nature Biotechnology, 2003, 21: 1347-1355.
[7] Rust M J, Bates M, Zhuang X. Sub-diffraction-limit imaging by stochastic optical reconstruction microscopy (STORM)[J]. Nature Methods, 2006, 3: 793-795.
[8] Hess S T, Girirajan T P K, Mason M D. Ultra-high resolution imaging by fluorescence photo activation localization microscopy[J]. Biophysical Journal, 2006, 91(11): 4258-4272.
[9] 吴美瑞, 杨西斌, 熊大曦, 等. 结构光照明荧光显微镜突破衍射极限的原理和在生命科学中的应用[J]. 激光与光电子学进展, 2015, 52(1): 010003.
[10] Garini Y, Vermolen B J, Young I T. From micro to nano: Recent advances in high-resolution microscopy[J]. Current Opinion in Biotechnology, 2005, 16(1): 3-12.
[11] Heintzmann R, Ficz G. Breaking the resolution limit in light microscopy[J]. Briefings in Functional Genomics and Proteomics, 2006, 5(4): 289-301.
[12] Goodman J W. Introduction to Fourier optics[M]. Colorado: Roberts & Company Publishers, 2005.
谢创亮, 观嘉宁, 白玉磊, 杨其宇, 叶双莉, 周延周. 基于随机脉冲编码的超分辨显微成像算法研究[J]. 激光与光电子学进展, 2016, 53(7): 071101. Xie Chuangliang, Guan Jianing, Bai Yulei, Yang Qiyu, Ye Shuangli, Zhou Yanzhou. Research on the Super-Resolution Microscopy Imaging Based on Random Pulse Coding[J]. Laser & Optoelectronics Progress, 2016, 53(7): 071101.