SUPPRESSION OF SIDELOBES IN SINGLE-PHOTON 4PI CONFOCAL MICROSCOPY BY F€ORSTER RESONANT ENERGY TRANSFER
JIANFANG CHEN, YA CHENG. SUPPRESSION OF SIDELOBES IN SINGLE-PHOTON 4PI CONFOCAL MICROSCOPY BY F€ORSTER RESONANT ENERGY TRANSFER[J]. Journal of Innovative Optical Health Sciences, 2012, 5(3): 1250016.
[1] S. W. Hell, "Far-field optical nanoscopy," Science 316, 1153-1158 (2007).
[2] M. Dyba, S. W. Hell, "Focal spots of size λ/23 open up far-field fluorescence microscopy at 33 nm axial resolution," Phys. Rev. Lett. 88, 163,901-163,904 (2002).
[3] M. J. Rust, M. Bates, X. W. Zhuang, "Subdiffraction-limit imaging by stochastic optical reconstruction microscopy (STORM)," Nat. Methods 3, 793-796 (2006).
[4] E. Betzig, G. H. Patterson, R. Sougrat, O. W. Lindwasser, S. Olenych, J. S. Bonifacino, M. W. Davidson, J. Lippincott-Schwartz, H. F. Hess, "Imaging intracellular fluorescent proteins at nanometer resolution," Science 313, 1642-1645 (2006).
[5] M. G. L. Gustafsson, "Nonlinear structured-illumination microscopy: Wide-field fluorescence imaging with theoretically unlimited resolution," Proc. Natl. Acad. Sci. USA 102, 13081-13086 (2005).
[6] M. C. Lang, J. Engelhardt, S. W. Hell, "4Pi microscopy with linear fluorescence excitation," Opt. Lett. 32, 259-261 (2007).
[7] J. Chen, K. Midorikawa, "Two-color two-photon 4Pi fluorescence microscopy," Opt. Lett. 29, 1354-1356 (2004).
[8] J. Chen, Y. Cheng, "Far-field super-resolution imaging with dual-dye-doped nanoparticles," Opt. Lett. 34, 1831-1833 (2009).
[9] S. Deng, J. Chen, Q. Huang, C. Fan, Y. Cheng, "Saturated F€orster resonance energy transfer microscopy with a stimulated emission depletion beam: A pathway toward single-molecule resolution in far-field bioimaging," Opt. Lett. 35, 3862-3864 (2010).
[10] S. W. Hell, E. H. K. Stelzer, "Fundamental improvement of resolution with a 4Pi-confocal fluorescence microscope using two-photon excitation," Opt. Commun. 93, 277-282 (1992).
[11] Y. Cheng, K. Sugioka, K. Midorikawa, M. Masuda, K. Toyoda, M. Kawachi, K. Shihoyama, "Control of the cross-sectional shape of a hollow microchannel embedded in photostructurable glass by use of a femtosecond laser," Opt. Lett. 28, 55-57 (2003).
[12] F. He, H. Xu, Y. Cheng, J. Ni, H. Xiong, Z. Xu, K. Sugioka, K. Midorikawa, "Fabrication of micro- fluidic channels with a circular cross section using spatiotemporally focused femtosecond laser pulses," Opt. Lett. 35, 1106-1108 (2010).
[13] F. He, Y. Cheng, J. Lin, J. Ni, Z. Xu, K. Sugioka, K. Midorikawa, "Independent control of aspect ratios in the axial and lateral cross sections of a focal spot for three-dimensional femtosecond laser micromachining," New J. Phys. 13, 083014 (2011).
[14] G. Zhu, J. V. Howe, M. Durst, W. Zipfel, C. Xu, "Simultaneous spatial and temporal focusing of femtosecond pulses," Opt. Express 13, 2153-2159 (2005).
[15] D. Oron, E. Tal, Y. Silberberg, "Scanningless depthresolved microscopy," Opt. Express 13, 1468-1476 (2005).
JIANFANG CHEN, YA CHENG. SUPPRESSION OF SIDELOBES IN SINGLE-PHOTON 4PI CONFOCAL MICROSCOPY BY F€ORSTER RESONANT ENERGY TRANSFER[J]. Journal of Innovative Optical Health Sciences, 2012, 5(3): 1250016.
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