Author(s)

Young Hwan Yun^*, Kiho Jang

Zero Theoretical Physics Lab, Seoul, Republic of Korea.

We propose the new field potential by maintaining both the symmetry of the scalar gauge and the conservation law keeping N?ether’s theorem, while disregarding the symmetry of the vector gauge. The new potential forms like the well-type potential where a particle behaves almost freely but is very hard to escape without external energy, which can be interpreted as local confinement and asymptotic freedom. By assuming a 2-dimensional metric tensor in 4-dimensional space-time, we suggest the existence of 3 kinds of particles that resemble QCD with 3 color charges. We also show that the mass term exists but comes to zero and derive the charge and spin values. We can regard the particle with this new potential as a gluon, and the interaction in this well-type potential as a strong interaction for the properties of mass, charge, spin, and its behavior. We suggest the eight-fold way with this new particle, which is similar to the existing method based on SU (3) symmetry. Even though the strong interaction has been analyzed in the standard model and string theory, we build a new consistent model based on the theory of relativity including Riemann geometry, and show the unification of gravitational and strong interactional field.

Strong Interaction, Gauge Symmetry, Relativity, QCD, Confinement, Asymptotic Freedom

Yun, Y. and Jang, K. (2024) Unification of Gravitational and Strong Interaction Fields Using Partial Gauge Symmetry. Journal of High Energy Physics, Gravitation and Cosmology, 10, 515-533. doi: 10.4236/jhepgc.2024.102032.