OFGNDFvalidation.pdfOFG Data

This batch of files supports the expanded validation and integration of Oscillatory Field Genesis (OFG) with the Standard Model and cosmological observations. Included are two papers: one mapping OFG's Φ and Θ fields to QFT-compatible scalar and pseudo-scalar forms, and one detailing simulation-ready modifications for CAMB/CLASS and OpenMC. Additionally, a numerical validation paper provides Python-based calculations for isotope binding, neutrino delays, and void lensing deviations. A matching CSV dataset offers side-by-side comparisons of OFG predictions with known anomalies across nuclear and astrophysical domains.

This batch of files supports the expanded validation and integration of Oscillatory Field Genesis (OFG) with the Standard Model and cosmological observations. Included are two papers: one mapping OFG's Φ and Θ fields to QFT-compatible scalar and pseudo-scalar forms, and one detailing simulation-ready modifications for CAMB/CLASS and OpenMC. Additionally, a numerical validation paper provides Python-based calculations for isotope binding, neutrino delays, and void lensing deviations. A matching CSV dataset offers side-by-side comparisons of OFG predictions with known anomalies across nuclear and astrophysical domains.

This batch of files supports the expanded validation and integration of Oscillatory Field Genesis (OFG) with the Standard Model and cosmological observations. Included are two papers: one mapping OFG's Φ and Θ fields to QFT-compatible scalar and pseudo-scalar forms, and one detailing simulation-ready modifications for CAMB/CLASS and OpenMC. Additionally, a numerical validation paper provides Python-based calculations for isotope binding, neutrino delays, and void lensing deviations. A matching CSV dataset offers side-by-side comparisons of OFG predictions with known anomalies across nuclear and astrophysical domains.