This manuscript explores the origin of particle mass through the lens of pure geometric topology, offering a theoretical alternative to the reliance on empirical parameters such as the measured speed of light (c) and the fine-structure constant () in the Standard Model. Grounded in the 1+2 dimensional toroidal manifold of Arc Geometry and the Law of Spontaneous Doubling (LSD), the study introduces a pure geometric topological impedance limit (₆₄₎₌^-1 137. 041286) and an absolute spatial scale (c₆₄₎ = 3 10⁸ m/s). Utilizing these geometric constants, an absolute standardized electron mass baseline is algebraically derived at M₀ₑ₂\䂰 0. 510685 MeV/c². By applying this baseline alongside a spatial asymmetrical projection modifier (P) to a topological folding matrix, the fundamental particle mass spectrum is reconstructed. The resulting algebraic matrix aligns closely with current collider data, while systematically indicating a -0. 06\% metrological shift in the measured masses of heavy particles (e. g. , the Top quark and Gauge bosons). Furthermore, guided by the 2⁶ topological eigen-surjection principle, the framework posits a 64-state topological architecture. This suggests a mathematical extension to the current 62-particle model, theoretically predicting the existence of two hidden eigenstates at the ultimate microscopic boundary: the Ran-Magnetic (Bₘ⁰) and Ran-Light (Bₗ⁰) poles. This work aims to provide a rigorous mathematical foundation for conceptualizing absolute topological evolution in theoretical physics.
Frank F. (Arcman) Meng (Sun,) studied this question.