TITLE:
On Dark Matter Identification
AUTHORS:
Leif Matsson
KEYWORDS:
Dark Matter, Matter-Antimatter Asymmetry, Emergent Mass, Valence Quarks, Black Holes
JOURNAL NAME:
World Journal of Mechanics,
Vol.7 No.4,
April
30,
2017
ABSTRACT: A chemical non-equilibrium form of the superconductor like potential in the EW theory has been derived. It is obtained from the rate-equation for binding of fermions (quarks) to antifermions (antiquarks) and the spatial correlations for such pairs. In this model, the dimensionless coupling becomes a function of the fermion and antifermion field amplitudes, providing a measure of the matter-antimatter asymmetry from which the ratio between ordinary mass and dark mass is obtained. The dark mass becomes related to the Higgs boson mass and is estimated to about 192 GeV, which could be consistent with a signal observed from the Milky Way.