Research Papers

The papers collected here present the theoretical foundations of the AuraCoreCF research program. Together they outline a framework in which interfaces—physical or informational systems that observe, measure, or render state—play an active role in shaping coherence, geometry, and dynamical behavior. The work begins with a phenomenological proposal that finite-resolution measurement interfaces can induce an additional decoherence channel whose strength depends on the operational resolution of the apparatus. In interferometric systems this leads to distinctive, testable scaling relations between visibility and interface resolution, providing a clear experimental path to falsification or constraint. Building on this foundation, subsequent papers formalize coherence as an interface-relative quantity, derive geometric structure from equivalence classes defined by physical interfaces, and unify these ideas within a broader information-theoretic and geometric framework. AuraCoreCF applies these same principles to cognitive systems. The architecture treats information-processing environments as structured interfaces, where coherence, identity, and memory stability arise from constraints imposed by the system’s internal structure. The physics and theoretical papers therefore provide the conceptual basis for the architectural principles implemented in AuraCoreCF.