Talk:TFNR - 9.11.1 Dark matter

Dark matter consists of extended non-particle vortex structures with low mass density (halos, bubbles), which can host within them both dark matter structures with higher density (or low field temperature) and ordinary matter. What is the origin of dark matter? In brief, we can say that form the dynamics of the Field, in the former times, a very remote period of the evolution of the cosmos, "Interestingly, the brightest galaxy nearly always sits in the middle of the dark matter clump," says Massimo Viola (Leiden Observatory, the Netherlands) lead author of one of the first KiDS papers. "This prediction of galaxy formation theory, in which galaxies continue to be sucked into groups and pile up in the center, has never been demonstrated so clearly before by observations," adds Koen Kuijken. Massimo Viola explains: "This latest result indicates that dark matter in the cosmic web, which accounts for about one-quarter of the content of the Universe, is less clumpy than we previously believed." Dark matter remains elusive to detection, its presence only inferred from its gravitational effects. Studies like these are the best current way to determine the shape, scale and distribution of this invisible material. To a certain era of evolutionary del Campo, large-scale vortices, the result of interaction and fusion of smaller vortices, in an immense process of evolution by extension in the time-space domain, they began to saturate the available space coming in contact and interacting more and more intensely, without the possibility of translating in the surrounding space to limit the intensity of the interaction. At that time they began to form large and intense flows in areas of friction devices among the great vortex of dark matter. We can say that in that phase, in more intense interaction zones, the "temperature range" increased considerably, in the sense of an increase in the local velocity of the elementary disturbances, increase which compensated for the decrease in the areas occupied by the dark matter structures. The global average temperature of the universe, which corresponds to the microwave background radiation, tends to diminish over time with increasing amounts of dark and ordinary matter, or, in other words, the organization of the Field level. The general decrease of the average temperature, which produces a progressive elongation of the wavelengths of light, determines the phenomenon which we identify with the cosmic expansion, intimately connected with the dark energy event. The latter phenomenon is at the root of intense training processes of dark matter vortices of size relatively minor, that formed the "bubbles" that, again because of the interaction of the peripheral areas, would determine later the ordinary matter training In the further section named “A brief history of the Universe”, we discuss more widely the hypothesis of formation of dark matter in the ambit of the entire formation of the cosmos.