Dragonization introduces a golden-ratio-dependent mass shift without violating Dirac’s formalism. The model is compatible with relativistic quantum mechanics and suggests a potential new correction in effective mass physics. Future experimental tests can provide stringent constraints or possible confirmation of Dragonization in fundamental particles.
This paper presents initial findings on Dragonization Theory, a novel framework linking quantum mechanics, fractal geometry, and the golden ratio (φ ≈ 1.618) in atomic structures. Using Fourier and fractal analysis, we demonstrate that atomic orbitals exhibit self-similar wavefunction distortions that follow Fibonacci scaling. We analyze platinum’s atomic structure, identifying energy shifts and spectral ratios approximating golden ratio harmonics. These results suggest that Dragonization—a transformation from wave-like states (Snake) to ordered energy structures (Bird) and fully realized form (Dragon)—governs atomic self-organization. Our findings have implications for quantum mechanics, condensed matter physics, and cosmology.
Dragonization 