Abstract We present a derivation of the fine structure constant α that combines Möbius topology, CODATA precision mass measurements, and a quantum oscillation correction. The derivation contains no free parameters and achieves a relative precision of 14. 9 ppb compared to the CODATA 2018 value. Main Result The complete formula is derived as: 1/α = 24π²/√3 + √3/6 (1 - mₑ/mₚ - 1/4e²) = 137. 035 999 121 The discrepancy with the CODATA 2018 value (137. 035 999 084 ± 0. 000 000 021) is only +2. 0 × 10⁻⁷, representing a 4, 800-fold improvement over first-order topological models. Key Ingredients Möbius Topology: Provides the geometric ideal 24π²/√3 ≈ 136. 757. Mass Ratio Correction: Incorporates the electron-proton mass ratio (mₑ/mₚ) from CODATA 2018, encoding the TGA stability condition. Quantum Correction: Identifies a continuous existence-payment process with the natural base e (Euler's number). Physical Implications This derivation establishes two fundamental propositions: Gravity is not a force: It is the geometric condition of stable fermionic existence (TGA projection). The Strong Force is not independent: It is shown to be a direct consequence of Möbius topology, rendering additional interactions (gluons, color charge) redundant for stability. Note: This is Paper I of a three-part series. Paper II derives the topological term, and Paper III derives the mass and quantum corrections.
Zheng Yan (Sun,) studied this question.