Dark Matter and Baryons (Surplus Quarks) Generated by Nonequilibrium Confinement of Quarks
POSTER
Abstract
The emergence of baryons (surplus quarks ) at Big Bang, required a nonequilibrium binding and superconductor-like condensation of quark-antiquark pairs before the electroweak (EW) symmetry breakdown. (Similar for leptons). As will be further shown, the formerly unknown dimensionless coupling to the Ginsburg-Landau like potential and the scale parameter in the EW theory then become microscopic functions of the massive quark and antiquark fields, thus defining the matter-antimatter asymmetry and the dark matter content in the Universe at correct orders of magnitude. The number of free parameters in the Standard Model has thereby been reduceed.
Key words: Baryogenesis; Quark Confinement; Matter-Antimatter Asymmetry, Dark Matter; Black Holes.
Earlier publications on this matter:
1. Leif Matsson, Higgs-Like Mechanism by Confinement of Quarks in a Chemical Non-Equilibrium Model.
World Journal of Mechanics, 2016,6, 441-445.
2. Leif Matsson, On Dark Matter Identification. World Journal of Mechanics, 2017,7, 133-141.
Key words: Baryogenesis; Quark Confinement; Matter-Antimatter Asymmetry, Dark Matter; Black Holes.
Earlier publications on this matter:
1. Leif Matsson, Higgs-Like Mechanism by Confinement of Quarks in a Chemical Non-Equilibrium Model.
World Journal of Mechanics, 2016,6, 441-445.
2. Leif Matsson, On Dark Matter Identification. World Journal of Mechanics, 2017,7, 133-141.
Presenters
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Leif Matsson
Department of Physics, University of Gothenburg
Authors
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Leif Matsson
Department of Physics, University of Gothenburg