%0 Journal Article
%T The Origin of Cosmic Structures Part 6: CMB Anisotropy
%A J. C. Botke
%J Journal of High Energy Physics, Gravitation and Cosmology
%P 257-276
%@ 2380-4335
%D 2024
%I Scientific Research Publishing
%R 10.4236/jhepgc.2024.101020
%X In a recent series of papers, we introduced a new model of nucleosynthesis in which the matter content of the universe came into existence at a time of about 4 กม 10<sup>-5</sup> s. At that time, a small percentage of the vacuum energy was converted into neutron/antineutron pairs with a very small excess of neutrons. This process was regulated by an imprint that was established in the vacuum during an initial Plank-era inflation. Immediately after their inception, annihilation and charge exchange reactions proceeded at a very high rate and ran to completion after an interval of about 10<sup>-11</sup> s. By then, all the antibaryons had disappeared thereby establishing the matter/antimatter asymmetry of the universe. What remained were very high densities of mesons and leptons, somewhat lower densities of protons and neutrons, and finally, the very high density of photons that eventually became the CMB. The density of matter so created varied from one location to another in such a manner as to account for all cosmic structures and because the energy density of the photons varied in proportion to that of the matter, the CMB-to-be came into existence with an anisotropic spectrum already in place. For structures, the size of galaxy clusters, the initial anisotropy magnitudes were on the order of 25%. In this paper, we will follow the subsequent evolution of the photons and show that this model predicts with accuracy the temperature of the warmest anisotropies in the observed CMB spectrum.
%K CMB
%K Anisotropy
%K Dispersion
%K Nucleosynthesis
%K Early Universe
%K Time-Varying Curvature
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=130802