TITLE:
Asymmetrical Genesis by Remanufacture of Antielectrons
AUTHORS:
Dirk J. Pons, Arion D. Pons, Aiden J. Pons
KEYWORDS:
Asymmetry, Antimatter, Annihilation, Chirality, Proton Decay, Non-Local Hidden-Variable, NLHV
JOURNAL NAME:
Journal of Modern Physics,
Vol.5 No.17,
November
28,
2014
ABSTRACT: Problem: The asymmetrical genesis problem concerns why the universe
should have an abundance of matter over antimatter. Purpose: This paper shows
how the baryogenesis and leptogenesis asymmetries may both be resolved.
Approach: Design methods were used to develop a conceptual
mechanics for the remanufacturing
processes that transform particles in the decay processes.
This was based on the structures for the photon, electron, antielectron, proton
and antineutrino as previously identified as logical necessities for the beta
decay process, and represented as a non-local hidden-variable design with
discrete fields. Findings: The solution is given in terms of a mechanics that defines the
transformation of discrete field structures in particles. The genesis problem
is shown to be solvable. The mechanics describes pair production of an electron
and antielectron from two initial photons, and subsequent remanufacture of the
antielectron into a proton. It is predicted that two antineutrinos would be
emitted, which are testable and falsifiable. The theory identifies that the
role of the antineutrinos is to remove the antimatter handed field structures.
The original electron and proton may bond to form a simple hydrogen atom, or
combine via electron capture to form a neutron and hence heavier nuclides. The
subsequent preponderance of the matter pathways in the genesis production
sequence is also addressed and is explained as domain warfare between the
matter and antimatter species. Originality: The
concept of remanufacture of antielectrons into protons, with emission of antineutrinos,
is novel. Extensions of the theory explain the nuclides. Consequently the
theory explains from pair production up to nuclear structure, which is also
original.