We propose a theoretical framework in which spacetime curvature and gravitation emerge from a homogeneous compression field endowed with locally shared internal nuclei. In this model, diminution is interpreted as an internal fourth-dimensional direction associated with each fragment of matter. The macroscopic spacetime metric arises from a conformal projection of this internal compression dynamics. By introducing a minimal action coupling the compression field to geometry and matter, we demonstrate that Einstein’s field equations naturally emerge. In the weak-field regime, the Newtonian limit is recovered, identifying the gravitational potential with the spatial profile of the compression field. This work establishes a conceptual bridge between microscopic internal structure and macroscopic gravitational dynamics, providing a geometric interpretation of time as emergent from local diminution.
Garcia Pablo (Tue,) studied this question.
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