Geodesic
An anniversary of the journal ``Computer Optics''
Journal of Samara State Technical University, Ser. Physical and Mathematical Sciences, no. 3 (2013), pp. 7-20.

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We summarize the first twenty five years of scientific publishing “Computer Optics”, analyze its creating pre-conditions and history, and its development by the example of breakthrough articles on the diffractive optics, information optical technologies, image processing. We describe the progress of editorial team and the future development of journal.
Mots-clés : scientific journal, diffractive nanophotonics
Keywords: editorial board, history of creation, image processing, micro- and nanotechnologies. 
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E. I. Kolomiets. An anniversary of the journal ``Computer Optics''. Journal of Samara State Technical University, Ser. Physical and Mathematical Sciences, no. 3 (2013), pp. 7-20. http://geodesic.mathdoc.fr/item/VSGTU_2013_3_a0/

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[58] A. V. Volkov, N. L. Kazanskiy, O. Yu. Moiseev, “Microrelief Fabrication Using Glasslike Chalcogenide Semiconductors”, Computer Optics, 2002, no. 24, 74–77

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[73] V. A. Soifer, V. V. Kotlyar, L. L. Doskolovich, “Difractive optical elements in nanofotonics devices”, Computer Optics, 33:4 (2009), 352–368

[74] N. L. Kazanskiy, P. G. Serafimovich, S. B. Popov, S. N. Khonina, “Using guided-mode resonance to design nano-optical spectral transmission filters”, Computer Optics, 34:2 (2010), 162–168

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[76] N. L. Kazanskiy, P. G. Serafimovich, S. N. Khonina, “Optical nanoresonator in the ridge of photonic crystal waveguides crossing”, Computer Optics, 35:4 (2011), 426–431

[77] N. L. Kazanskiy, S. N. Khonina, S. I. Kharitonov, “The perturbation theory for schrodinger equation in the periodic environment in momentum representation”, Computer Optics, 36:1 (2012), 21–26

[78] S. N. Khonina, S. G. Volotovskiy, S. I. Kharitonov, N. L. Kazanskiy, “Calculation of the power spectrum of complex low-dimensional heterostructures in the presence of electric field”, Computer Optics, 36:1 (2012), 27–33

[79] N. L. Kazanskiy, P. G. Serafimovich, S. N. Khonina, “Enhancement of spatial modal overlap for photonic crystal nanocavities”, Computer Optics, 36:2 (2012), 199–204 | MR

[80] O. A. Titova, A. V. Chernov, “Technology of automatically geo-reference and cartographic images calibration”, Computer Optics, 32:1 (2008), 85–88 | MR

[81] V. V. Myasnikov, “Method for detection of vehicles in digital aerial and space remote sensed images”, Computer Optics, 36:3 (2012), 429–438

[82] A. A. Agafonov, A. V. Sergeyev, A. V. Chernov, “Forecasting of the motion parameters of city transport by satellite monitoring data”, Computer Optics, 36:3 (2012), 453–458 | MR

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[84] S. A. Borodin, A. V. Volkov, N. L. Kazanskiy, “Automated device for assessing the purity of a substrate by a dynamic liquid droplet applied to the surface”, Computer Optics, 2005, no. 28, 69–75

[85] S. V. Babin, L. L. Doskolovich, I. I. Kadomin, E. A. Kadomina, N. L. Kazansky, “Trapezoidal diffraction grating profile parameters estimation based on polynomial approximations of the reflected field”, Computer Optics, 33:2 (2009), 156–161

[86] N. L. Kazansky, S. B. Popov, “Machine vision system for determining the number of gel particles in a polymer solution”, Computer Optics, 33:3 (2009), 325–331

[87] V. A. Soifer, A. V. Kupriyanov, “Analysis and recognition of the nanoscale images: Conventional approach and novel problem statement”, Computer Optics, 35:2 (2011), 136–144

[88] A. V. Kupriyanov, “Texture analysis and identification of the crystal lattice type upon the nanoscale images”, Computer Optics, 35:2 (2011), 151–157

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[90] V. V. Kotlyar, A. G. Nalimov, M. I. Shanina, V. A. Soifer, L. O'Faolayn, E. V. Mineyev, I . V. Yakimchuk, V. E. Asadchikov, “Focusing properties of a zone plate investigation for a hard X-ray”, Computer Optics, 36:1 (2012), 65–71

[91] A. G. Nalimov, V. V. Kotlyar, V. A. Soifer, “Modeling of an image forming by a zone plate in X-ray”, Computer Optics, 35:3 (2011), 290–296 | MR

[92] V. V. Kotlyar, A. G. Nalimov, , M. I. Shanina, V. A. Soifer, L. O'Faolein, “Zone plate on a film for hard X-ray radiation”, Computer Optics, 35:1 (2011), 36–41

[93] N. L. Kazanskiy, “The research complex for solving problems of computer optics”, Computer Optics, 2006, no. 29, 58–77

[94] N. L. Kazanskiy, S. P. Murzin, V. I. Tregub, A. V. Mezhenin, “Application focusators radiation in the formation of nanoporous structures of solid crystalline materials”, Computer Optics, 31:2 (2007), 48–51

[95] N. L. Kazanskiy, S. P. Murzin, A. V. Mezhenin, E. L. Osetrov, “Laser radiation formation for creation nanodimentional porous structures of materials”, Computer Optics, 32:3 (2008), 246–248

[96] L. L. Doskolovich, M. A. Moiseev, “Designing radially symmetric refractive surfaces with regard for Fresnel losses”, Computer Optics, 32:2 (2008), 201–203

[97] V. V. Kotlyar, S. S. Stafeev, “Modeling sharp focus radially-polarized laser mode with conical and binary microaxicons”, Computer Optics, 33:1 (2009), 52–60

[98] S. N. Khonina, S. G. Volotovsky, “Controlling the contribution of the electric field components to the focus of a high-aperture lens using binary phase structures”, Computer Optics, 34:1 (2010), 58–68