Structures in the Universe and Origin of Galaxies

The analysis of images (of obtained in various ranges of the lengths of waves) of luminous objects in the Universe by means of a method of multilevel dynamic contrasting led author to the conclusions: a) the structures of all observable galaxies represents a complicated constructions which have the tendency to self-similarity and made of separate (basic) blocks, which are a coaxially tubular structures and a cartwheel-like structures; b) the majority of observable objects in the Universe are luminous butt-ends of almost invisible (of almost completely transparent) of filamentary formations which structures are seen only near to their luminous butt-ends; c) the result of analysis of images of cosmic objects show the structure of many pairs of cooperating galaxies point to opportunity of their formation at butt-ends generated in a place of break of the similar filament; d) the interacting galaxies (M 81 and M 82) show they are butt-ends of sawed off of two branches of a treelike filament and their interaction is coming out through this filament; e) as our Universe is in dynamics the processes of formation of stars, galaxies and their congestions can go presently by means of a fracturing of filaments with a corresponding diameters and of the time for their such formation is necessary much less, than along existing standard model.Comment: 15 pages, 17 figures, the part of materials of given paper has been represented in Conf. "New Vistas in Physics of Dusty Plasmas",and published in AIP Proc. of this Conference, editors: Laifa Boufendi, Vfxime Mikikian, P.K. Shukla, v. 799 (2005), pp. 165-16

Evidences for and the models of self-similar skeletal structures in fusion devices, severe weather phenomena and space

The paper briefly reviews (i) the evidences for self-similar structures of a skeletal form (namely, tubules and cartwheels, and their simplest combinations), called the Universal Skeletal Structures (USS), observed in the range 10-5 cm - 1023 cm. in the high-current electric discharges in various fusion devices, severe weather phenomena, and space, (ii) the models for interpreting the phenomenon of skeletal structures, including the hypothesis for a fractal condensed matter (FCM), assembled from nanotubular dust, and (iii) probable role of FCM, which might be responsible for the USS phenomenon, in tornado, ball lightning, and waterspout.Comment: 17 pages, 6 figures, reported at the 6-th Symposium "Current Trends in International Fusion Research: A Review", Washington, D.C., USA, 200

Large Scale Self-Similar Skeletal Structure of the Universe

An analysis of the redshift maps of galaxies and quasars has revealed large-scale self-similar skeletal structures of the Universe of the same topology which had been found earlier in a wide range of phenomena, spatial scales and environments. The "cartwheel" type of structure with diameter ~ 1.5 10^27 cm is discovered in this analysis by means of the method of multi-level dynamical contrasting. Similar skeletal structures in size up to 1.5 10^28 cm are found also in the redshift maps of quasars.Comment: 10 pages, 14 figures, paper was been represented in 1st Crisis in Cosmology Conference, CCC

Observations of Manifestations of Skeletal Structures of a Filamentary Matter on the Sun

The analysis of databases of photographic images of the Sun (obtained in region of soft x-ray) by means of a method of multilevel dynamical contrasting, has shown presence of skeletal structures of the Sun as outside (chromo-sphere flashes and powerful coronal mass ejections) and on the Sun (structures in its atmosphere, protuberances and of solar a stains). Moreover the structures which radius of rotation is less than radius of a solar disk on breadth of their observation have been revealed. On the basis of the obtained results of this analysis, the author puts forward a hypothesis about an opportunity of existence of some filamentary matter as inside, so outside of the Sun.Comment: 10 pages, 5 figures, the materials of this paper was been partially published in Proc. Conf.: 32-th EPS on Plasma Phys. and Contr. Fusion, (2005); 4ICPDP, (2005); the 13th General Conference of the European Physical Society, (2005