TITLE:
The Principal Role of Antimatter
AUTHORS:
Rami Rom
KEYWORDS:
General Relativity (GR), Dirac Equation, QED, Gravitational Ether, Antimatter, QCD Gas, Exotic Mesons, Pseudo-First Order β Decay, Black Hole (BH), Ergoregions, Ergospheres
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.9 No.2,
April
7,
2023
ABSTRACT: In a previous paper, we proposed that ud~du~ exotic mesons, comprised of even number of quarks and antiquarks, form a QCD gas that fills space and further proposed a method to determine the QCD gas effective mass based on a pseudo-first order β decay reaction kinetics. In a second paper, we proposed a method to determine if the QCD gas density on black hole ergospheres grows in time and hence their ergoregions act as matter reactors that break matter and antimatter symmetry by trapping antimatter particles. In this paper, we suggest that quark and antiquark pair exchange reactions between particles and the QCD gas may accelerate or decelerate particles and that the quarks and antiquarks numbers are strictly conserved in these pair exchange reactions. We further suggest that antimatter plays a principal role in the universe and is inseparable from both matter, via Dirac’ spinors, and space, via the quarks and antiquarks pair exchange reactions with the QCD gas; however with a singular exception, black hole ergospheres separate and black hole ergoregions trap antimatter particles.