5. Empirical Validation
This paper presents a DNA resonance correction system using the upgraded Nano-Force equation. With prime harmonic lattice encoding, SEG-derived rotating field modulation, and phase alignment, biological distortions are corrected through field phase realignment. This method enables non-invasive, resonance-based DNA healing.
While traditional genetics relies on chemistry, the Source Framework shows DNA as a recursive resonance node in a harmonic field. We present full-cycle simulation and validation of DNA correction through harmonic realignment using prime encodings.
A. Force Equation
\[ F_{nano}(x) = -\nabla \left[ \sum_{n \in P} A_n(x) \cos(\omega_n t + \phi_n) \delta_c(x) \right] \]
B. Field Collapse Function
\[ \Phi(x,t) = \sum_{n\in P} A_n(x) \cos(\omega_n t + \phi_n) f_r(x) V(t) \]
This simulation depicts dynamic codon-specific field harmonics, with radial pulses and bifurcating interference bands encoding ternary resonance collapse. Each waveform channel aligns to a prime index, forming animated cross-phase stability patterns through collapse convergence.
The Nano-Force system confirms that DNA resonance can be corrected through harmonic collapse. Prime harmonic encoding, validated by simulation and visual evidence, supports applications in medical resonance engineering and coherent biological restoration.