Pre-Measurement Prediction: Nodal Phase-Lock in the Neutrino SectorA First-Principles Derivation of δCP and Neutrino Mass via the PNI Equation

This paper provides a first-principles derivation of the primary unknowns in the neutrino sector—the CP-violating phase (δCP) and the absolute neutrino mass sum (Σmν)—using the PNI framework. By applying the K=7200 state-register and the fundamental lattice refractive index (nΥ≈1.0822), we resolve the leptonic sector's torsional restorative force. Key Results: CP Phase: Predicted at 282.15∘, corresponding to the nodal state N=5643 of the 7,200-register. Mass Sum: Derived at 0.0581 eV, placing it within the narrowest upcoming experimental sensitivity bounds. Mechanism: Neutrino oscillations are identified as "Phase-Lock" cycles within the discrete lattice, eliminating the need for arbitrary mass-hierarchy assumptions. This predictive audit serves as a pre-measurement verification of the PNI architecture, offering a definitive, falsifiable target for the next generation of Long-Baseline Neutrino experiments.