General Outline for the Derivation of Fourth-Stage Physical Constants

Project: W≡0 Global Topological Unified Field Theory System Construction Project Stage: Fourth Stage · Physical Constant Derivation Layer Abstract Based on the permanently locked pure mathematical topological substrate of the 4.0 series, this paper constructs a unified first-principles derivation methodology system for fundamental physical constants within the framework of the W≡0 global topological unified field theory. A standardized derivation framework centered on the three-line independent derivation and Boolean logic external quality control is proposed, establishing precise mapping rules between topological quantities and physical quantities, unified system-wide error analysis specifications, hierarchical precision acceptance criteria, and cross-stage achievement docking requirements. This paper systematically sorts out the classification system and logical progressive relationships of eight core fundamental physical constants, clarifies the fine-structure constant α as the core anchor of the globally unique dimensionless topological primitive invariant, and formulates the writing sequence and task division for nine special papers from 4.2 to 4.10. The academic boundaries and prohibitions of the fourth stage are strictly defined. All core theoretical constructions and dimensionless numerical outputs are independent of experimental fitting parameters, while the SI values of dimensional constants are uniquely calibrated via conversion factors based on authoritative experimental benchmarks. No unlocked basic assumptions are added throughout the research, and the theoretical construction relies entirely on the locked topological spacetime architecture and conservation axioms of the 4.0 series. The publication of this outline marks the paradigm shift of the W≡0 system from a pure mathematical pre-stage to a verifiable quantitative physical system construction stage, providing a unified, self-consistent, and traceable physical constant substrate for all subsequent physical-layer research. Keywords W≡0 conservation; fundamental physical constants; first-principles derivation; body-phase-action three-line method; topological-physical quantity mapping; external quality control system; hierarchical precision criteria