This work develops a field-theoretic extension of the Aether Physics Model (APM) within the framework of Quantum Measurement Units (QMU). Previous work established that the fundamental constants of physics arise from a closed system of Aether substrate relations. The present work constructs the corresponding dynamical field theory. A scalar coherence field is introduced to represent the volumetric--chronovibrational persistence of the Aether substrate. The governing equation for this field is a coherence-gradient relation in which mass loading acts as a source of curvature: \² = -, \ = G{C²}. \ In the static limit, this equation reproduces the classical gravitational field equation under the projection\ = {C²}, ² = -G. \ Directional decomposition of the scalar field generates two vector modes corresponding to expansive and torsional transport. These fields satisfy a closed set of coupled equations incorporating both electrostatic and magnetic charge densities: \ = ₑ, = ₘ, \ \ =- t- jₘ, =1c² t+ jₑ. \ \] Wave equations follow directly from this system, showing that electromagnetic propagation corresponds to coupled transmission of expansive and torsional coherence modes with propagation speed = C Fq. \ A Lagrangian formulation is constructed for the coherence field, =12c² (t) ²-12| |²+, which the field equations follow by application of the Euler--Lagrange equations. This establishes the coherence field as a dynamical quantity governed by a variational principle. The resulting framework unifies gravitational and electromagnetic phenomena within a single field description. Observable physical laws emerge as projections of a unified volumetric--chronovibrational structure, in which force, charge, and wave propagation arise from coherence variation and transport within the Aether substrate.
David W. Thomson (Thu,) studied this question.
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