This report brings two seemingly unrelated phenomena together: the EPR paradox, a thought exercise Einstein used to infer quantum mechanics was incomplete, and the orbital rotation of solar systems in galaxies, mainly invariant with radial distance from the galactic centre that has been hypothetically explained via dark matter, a halo of matter invisible to Earth thought to surround galaxies. Self-Field Theory (SFT) is a new bispinorial description of electromagnetic (EM) interactions applying across physics. SFT utilizes exact closed-form solutions of the Maxwell-Lorentz (ML) equations containing two curl and two divergence equations. The eigenvalue equations indicate a photonic level physics sitting underneath the atomic level physics via two new quantum numbers relating to the phase length of photons and the discretization of the motions of atomic particles. Hence electrons and protons are in dynamic balance via photons acting as binding energy within atoms at the EM level while photons and other bosons again act as binding energy at the gravitational level between planets and suns. Strong nuclear (SN) regions of atoms can be described via trispinorial forms involving a modified system of ML equations incorporating three curl and three divergence equations instead of the two curl and two divergence equations of EM interactions. There is correspondence between the internal boson structure and the form of the gravitational structure: the photon corresponds to bi-rotational motion while the gluon corresponds to tri-rotational motion. There is an acoustic (A-) field in addition to the electrical and magnetic fields that binds the galactic constituents together within a 3-D system of forces that stiffens the galaxy into one viscous mass. The dynamics of solar systems orbiting within galaxies can be described using such trispinorial motions.
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