Quantum dynamical manifolds 5. Hydrogen mass-spacetime

The newly developed methods of quantum dynamical manifold theory (QDMT) are used to determine a theory of the differential geometry and topology of the quantum dynamical manifold of the hydrogen nuclear-electron system. This provides an ab initio theory of the structure of nuclear-atomic system including the quarks, gluons, and (W + , Z 0 , W -) in the proton and the atomic orbital electron in a way that treats the strong, electromagnetic, weak, and gravitational forces from a unified QDMT viewpoint. The calculations proposed resemble self-consistent Green's function ones in Fourier space. The quasi-particles provide the basis for computing the globally defined connection needed for determining the self-consistent gauge potentials. This approach allows the simultaneous determination of coupling constants and masses along with the quasi-particle amplitudes. All integrals needed can be analytically computed using a Gaussian-type orbital basis.