Foundations of Ontolotron Theory: Recursive Coherence Selection in Spinor Cosmology

This paper develops the Ontolotron as a physically embedded actuator that favors CPTstable, globally convergent attractors. The resulting perspective offers new insight into vacuum selection, matter-antimatter asymmetry, and black hole-white hole duality. The Spinor Universe Framework, which describes its possibility space, offers a unifying lens for understanding vacuum structure, matter-antimatter asymmetry, and black hole/white hole duality. They are re-framed as consequences of topological constraint satisfaction. To test this hypothesis, we propose a set of nuclear-scale experiments, including a novel protocol involving the co-injection of 3He and 6He into a superfluid 4He bath. This configuration is designed to detect whether nuclear systems resolve more rapidly into stable configurations under coherence-enhanced conditions. The resulting framework offers both a reinterpretation of several foundational anomalies and a path toward empirical evaluation of topologically grounded, information-based physical dynamics.