Particle Creation from Yang-Mills Gravity ()
ABSTRACT
The genesis of physical particles, a foundational aspect of physics, is still a mystery. Quantum field theory creation operators provide an abstract mechanism to bring particles into existence. The assumption of a primordial field underlies the Standard Model (SM), yet the forces have failed to converge to such a field. Current treatments of a superfluid-based universe [Huang, Volovik, and Svistunov, Babaev, Prokof’ev] focus heavily on vortices and Yang-Mills theory, so we analyze self-interaction of the primordial field in the context of Yang-Mills. We show that a self-stabilizing higher-order self-interaction interpretation of the Yang-Mills non-Abelian term yields a stable quantum gravity explanation of the mass-gap. In future we will address the
and conserved charge aspects in terms of this fundamental theory of particle creation.
Share and Cite:
Klingman, E. (2022) Particle Creation from Yang-Mills Gravity.
Journal of Modern Physics,
13, 1128-1145. doi:
10.4236/jmp.2022.137065.