Semiconductor Physics, Quantum Electronics and Optoelectronics, 13 (1) P. 98-102 (2010).
DOI:
https://doi.org/10.15407/spqeo13.01.098
References
1. 1. Y. Garini, B.J. Vermolen, I.T. Yong, From micro to nano: recent advances in high-resolution microscopy // Current Opinion in Biotechnology № 6, p. 3-12 (2005). https://doi.org/10.1016/j.copbio.2005.01.003 | | 2. ELYRA Enter the World of Superresolution. Product description. - Jena: Carl Zeiss MicroImaging GmbH, 2009. | | 3. Applied Precision Delta Vision OMX. 3D-SIM Super-Resolution Imaging. Product description. - Issaquah: Applied Precision, Inc., 2009. | | 4. J.T. Frohn, Super-Resolution Fluorescence Microscopy by Structured Light Illumination. // Dissertation of Doctor of Technical Sciences. - Zurich, 2000. - 143 p. | | 5. M. Beck, Extended Resolution in Total Internal Reflection Fluorescence Microscopy. // Dissertation of Doctor of Technical Science. - Zurich, 2008. - 120 p. | | 6. S.S. Hong, Scanning Standing Wave Illumination Microscopy: A Path to Nanometer Resolution in XRay microscopy // Dissertation of Doctor of Philosophy. - Massachusetts, 2005. - 88 p. | | 7. M.G.L. Gustafsson, L. Shao, P.M. Carlton, R.C.J. Wang, I.N. Golubovskaya, etc. Three-Dimensional Resolution Doubling in Wide-Field Fluorescence Microscopy by Structured Illumination // Biophysical Journal 94, June, p. 4957-4970 (2008). https://doi.org/10.1529/biophysj.107.120345 | | 8. S. Haase, OMX - A Novel High Speed and High Resolution Microscope and its Application to Nuclear Chromosomal Structure Analysis // Dissertation of Doctor of Mathematic - Nature Science. - Berlin, 2005. - 144 p. | | 9. H.G. Kapitsa, Microscopy from the Very Beginning. 2nd revised edition. - Carl Zeiss: Jena, 1997. | |
|
|