Author(s)

Walter James Christensen Jr.^1,2

¹Physics and Astronomy Department Cal Poly Pomona University, Pomona, CA, USA.
²Physics Department, Cal State Fullerton University, Fullerton, CA, USA.

After a straightforward general relativistic calculation on a modified flat-spacetime metric (developed from the fluctuating vacuum energy interacting with a graviton field), a pair of n-valued covariant and contravariant energy momentum tensors emerged analogous to quantized raising and lower operators. Detaching these operators from the general relativistic field equations, and then transporting them to act on extreme spacetimes, these operators were able to generate fundamental particle boson masses. In particular, the operators precisely generated Higgs mass. Then by applying a consistency approach to the gravitational field equations—similar to how Maxwell applied to the electromagnetic ones—it allowed for the coupling of spin-to-mass, further restricting the particle mass to be in precise agreement with CODATA experimental values. Since this is a massless field approach integrated discretely with a massive one, it overcomes various renormalizing difficulties; moreover it solves the mass hierarchal problem of the Standard Model of particle physics, and generates its spin and therefore shows quantum physics to be a subset of General Relativity, just as Einstein had first imagined.

Standard Model Particle Physics, General Relativity, Geometric Particles, Higgs Mass, Relativized Quantum Physics, RQP, Graviton, Gravitational Lagrangian, Consistency Formulation for Gravity, Mass Hierarchal Problem

Christensen Jr., W. (2015) Completing the Standard Model with Gravity by General Relativizing Quantum Physics (RQP) (Coupling Spin-2 Gravitons with Spin-0 Particles to Generate Higgs Mass). Journal of Modern Physics, 6, 1969-1985. doi: 10.4236/jmp.2015.613203.