Quantum Impedance Networks (QINs) of Dark Matter and Energy

Dark matter has two origins in the model:

Geometrically, extending two-component Dirac spinors to the minimally complete 3D Clifford algebra eight-component wavefunction permits calculating wavefunction interaction QINs. Impedance matching governs amplitude and phase of energy flow. While vacuum wavefunction is the same at all scales, flux quantization of wavefunction components yields different physics as scale changes, with corresponding mismatches far from Compton wavelengths, decoupling dynamics.

Topologically, extending wavefunctions to eight components introduces magnetic charge, topological dual of electric charge. Coupling to the photon is reciprocal of electric, inverting fundamental lengths - Rydberg, Bohr, classical, and Higgs - about the charge-free Compton wavelength λ = h/mc. To radiate, Bohr cannot be inside Compton, Rydberg inside Bohr,... Topological inversion renders magnetic charge ‘dark’.

Dark energy mixes geometry and topology, translation and rotation gauge fields. Impedance matching to the Planck length exposes an identity between gravitation and mismatched electromagnetism. Wavefunction fields propagate away from confinement scale, are reflected back by vacuum mismatches they excite. ‘Hawking graviton’ attenuation results in exponentially increasing wavelengths, ultimately greater than radius of the observable universe. Graviton oscillation between translation and rotation gauge fields exchanges linear and angular momentum, an invitation to MOND.