PFUSRC₃6: Coupling Gaps and Observational Residuals in 45° Triple Coaxial Double-Cone Topology — A Paradigm Shift from Mechanical Precision to Topological Precision

Conventional physics universally classifies systematic residuals that cannot be eliminated in high-precision observations as experimental errors or statistical noise, with the goal of eliminating residuals and achieving static perfect fitting. Based on the PFUSRC primordial topological axiomatic system, which has been rigorously proven that the 45° triple coaxial double-cone is the unique steady-state geometric configuration of the universe, relying on the 1→5→11 dimensional evolution sequence, 55 global steady-state datum points, and 12:11 global gauge invariance, this paper proposes a core thesis: Observational residuals are not errors, but inherent coupling gaps that maintain the dynamic steady state of the primordial topology. This gap is determined by the helical meshing motion of the double-cone topology, corresponding to the natural value range of the intrinsic dynamic constant π₁, which is the underlying mechanism for spacetime to maintain self-consistent operation. Combined with three cross-scale authoritative observations: Hubble tension, time crystals, and permanent residuals in high-precision frequency standards, this paper proves that such anomalies are direct observational fingerprints of topological structures. The study further shows that human science is at a critical node of a paradigm shift from mechanical precision to topological precision. The understanding and utilization of coupling gaps will become the core breakthrough direction for the next generation of basic science and cutting-edge technologies.