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Development of optical systems

The objective of the present section of the research is to address the tasks of comprehensive analytical description of graphically synthesized holographic elements built according to diagrams and topologies of the AIRES New Medical Technologies Foundation, as well as synthesis and classification of possible forming patterns of transparencies with certain optical properties. Special attention in the data of this research was paid to the following question: – what spatial multi-dimensional structures of spatial topologies make up the diagram graphics and, consequently, what three-dimensional structures can be synthesized with the aid of transparency sets that are aligned in space in a certain manner? It became possible to set this objective when writing Reports

Conclusions.
The performed theoretical analysis and experimental validation obtained in the Record [18] lead to the following basic conclusions. Transparencies with Aires fractal-matrix graphics act as – phase Fourier filters for spatial frequencies that single out the discrete frequency grid in that radiation, depending on the phase velocity V of particle streams or electromagnetic radiation going through or reflected by the transparencies, – generators of an ordered raster structure governed by the main equation of Fraunhofer diffraction overlaid by a field structure of auto-reference of spatial frequencies connected to the fractalization centers in the strictly ordered points of the transparencies, – graphically synthesized holograms that in coherent light generate the above-mentioned optical phenomena, and in non-monochromatic light they show a three-dimensional structure of 4 collimated beams of light intersecting in one point, with the internal filling of the light containing phenomena of «white» light dispersion [18]. – The latest results establish that fractal graphics in the zero center of fractalization is a conformal inverse mapping of regular net structures of a large number of second-order surfaces.

Development of optical systems and guidelines for making interferometric and polaroid devices with preset intensity distribution on transparency matrices with a high-density fractal pattern.

Head of the Fundamental Research Laboratory of Fractal Optics and Fractal Transparency Optics: G.S. Melnikov
“S. I. Vavilov State Optical Institute” member of the Russian Academy of Sciences