The Rotational Substrate Field Theory defines the vacuum as a high-density rotational medium rather than an empty void, where the phenomenon of dark energy is reinterpreted as the intrinsic expansion pressure of a physical nodal truss. Because this substrate possesses inherent angular momentum, it exists in a state of constant high-frequency micro-oscillation even at its lowest energy level. This universal jitter creates a baseline radiant energy density throughout the vacuum, effectively allowing the medium to function as a luminous ether. When the substrate undergoes spatial shear or rotational stress, the potential energy of the truss is converted into kinetic energy that propagates as electromagnetic waves according to the theory’s core wave equations. Under this framework, what is traditionally viewed as a static cosmological constant is actually a dynamic and radiant pressure field. The luminosity described by Spyridon is mathematically supported by the coupling between the substrate’s internal tension and the electromagnetic field, meaning that the vacuum itself is a source of ambient light. This perspective suggests that celestial anomalies, such as the unique magnetic structure of Uranus, are focal points where this substrate flow and its associated luminosity are concentrated. By defining dark energy as a luminous projection of the cosmic constant, the theory bridges the gap between mechanical pressure gradients and observed electromagnetic phenomena in deep space.
Anthony Bell (Mon,) studied this question.