The Fractal Nature of the Fine Structure Constant: Alpha as a Dynamic Stability Index of the Substratum and Cosmic Scale Calibration

The fine structure constant (alpha ≈ 1/137. 035. . . ) remains one of the most fundamental yet enigmatic parameters in physics. This paper proposes a deterministic reinterpretation of this dimensionless quantity within the framework of Substratum Hydrodynamics (Papers I-XIV). We demonstrate that alpha represents the ratio between the rotational velocity of a local Substratum vortex (vᵣot) and the wave propagation speed in the medium (c): alpha = vᵣot / c. By establishing the principle of Fractal Cosmology, we mathematically derive that this proportion is scale-invariant, manifesting at both atomic and galactic scales. For empirical validation, a dynamic analysis of 20 major galaxy clusters is presented, revealing that their maximum velocity dispersion correlates with the calculated “Alpha Velocity” (vₐlpha ≈ 2189 km/s). This correlation provides a physical basis for the fine structure constant as a dynamic stability index of the Substratum, offering a new methodology for calibrating the density of the universe and the local speed of light. The study concludes that 1/137 is the structural "gear ratio" that ensures the stability of matter across all hierarchical levels of the universe.