[1] Hell S W. Far-field optical nanoscopy[J]. Science, 2007, 316(5828): 1153-1158.

[2] Liu Y, Ding Y, Alonas E, et al. Achieving λ/10 resolution CW STED nanoscopy with a Ti: sapphire oscillator[J]. PloS One, 2012, 7(6): e40003.

[3] Eggeling C, Hell S W. STED Fluorescence Nanoscopy[M]. Belin: Springer, 2014.

[4] Kuang C, Zhao W, Wang G. Far-field optical nanoscopy based on continuous wave laser stimulated emission depletion[J]. Review of Scientific Instruments, 2010, 81(5): 053709.

[5] Nelson A J, Gunewardene M S, Hess S T. High speed fluorescence photoactivation localization microscopy imaging[C]//SPIE NanoScience+ Engineering. International Society for Optics and Photonics, 2014: 91690P-91690P-7.

[6] Achurra P, Holden S, Pengo T, et al. Super-Resolution Microscopy Techniques in the Neurosciences[M]. USA: Humana Press, 2014: 87-111.

[7] Klein T, Proppert S, Sauer M. Eight years of single-molecule localization microscopy[J]. Histochemistry and Cell Biology, 2014, 141(6): 561-575.

[8] Kim D, Bujny M, Zhuang X. Structural studies by correlative stochastic optical reconstruction microscopy and electron microscopy[J]. Biophysical Journal, 2014, 106(2): 606a.

[9] Endesfelder U, Heilemann M. Advanced Fluorescence Microscopy: Method and Protocols[M]. New York: Springer, 2015: 263-276.

[10] Tehrani K F, Xu J, Kner P A. Multi-color quantum dot stochastic optical reconstruction microscopy (qSTORM)[C]//SPIE, 2015, 9331: 93310C.

[12] Honigmann A, Mueller V, Ta H, et al. Scanning STED-FCS reveals spatiotemporal heterogeneity of lipid interaction in the plasma membrane of living cells[J]. Nature Communications, 2013, 5: 5412.

[13] Yu J Q, Yuan J H, Zhang X J, et al. Nanoscale imaging with an integrated system combining stimulated emission depletion microscope and atomic force microscope[J]. Chinese Science Bulletin, 2013, 58(33): 4045-4050.

[14] Westphal V, Hell S W. Nanoscale resolution in the focal plane of an optical microscope[J]. Phys Rev Lett, 2005, 94: 143903.

[15] Harke B, Keller J, Ullal C K, et al. Resolution scaling in STED microscopy[J]. Opt Express, 2008, 16: 4154-4162.

[16] Yu Jianqiang, Yuan Jinghe, Fang Xiaohong, et al. Effects of excitation and depletion process on resolution of stimulated emission depletion microscope[J]. Acta Optica Sinica, 2010, 30(S1): 100405. (in Chinese)

[17] Galiani S, Harke B, Vicidomini G, et al. Strategies to maximize the performance of a STED microscope[J]. Optics Express, 2012, 20(7): 7362-7374.

[18] Xi P, Xie H, Liu Y, et al. Optical nanoscopy with stimulated emission depletion[J]. Optical Nanoscopy and Novel Microscopy Techniques, 2014: 1-22.

[19] Yang X, Tzeng Y K, Zhu Z, et al. Sub-diffraction imaging of nitrogen-vacancy centers in diamond by stimulated emission depletion and structured illumination[J]. Rsc Advances, 2014, 4(22): 11305-11310.