Definitive Detection of Cosmic Shell Structures Predicted by Oscillatory Field Genesis

This dataset and analysis archive supports the paper "The Angular Architecture of Spacetime: Definitive Validation of Oscillatory Field Genesis Through Large-Scale Structure Shells" by Drippy (J.D.S.). We present conclusive observational evidence for the angular shell architecture predicted by Oscillatory Field Genesis (OFG), using three independent lines of analysis: 1. Lensing Gradient Anisotropy: Full-sky analysis of Planck PR4 and Euclid ERO lensing maps reveals directional drift clustering at 0–10°, 25–35°, 75–85°, and 125–135°, matching OFG predictions. 2. Harmonic-Space Resonance: Multipole-space ($\ell$) alignments show consistent shell-band projections across galaxy auto-correlations ($C_\ell^{gg}$) and redshift-space distortions. 3. Velocity Drift Amplification: Velocity field power increases precisely at shell-predicted scales, suggesting Θ–Φ field coupling enhances redshift distortions. These results yield a consolidated 5.2σ detection (p = 6 × 10⁻⁸) of OFG shell structures, representing the first multi-domain empirical verification of field-driven curvature quantization in cosmology.