SOLAR External: Apophis (99942) — Coherence Signature on SOLAR Baseline (CP364)

This release documents the SOLAR External CP364 workflow applied to (99942) Apophis, with the purpose of assessing whether structured, scan-stable coherence signatures emerge when comparing the target dynamics with the SOLAR baseline (Sun stress series). The dossier follows a strict evidence-first approach: no claim of causality, no claim of modifications to known physical laws, no prediction statements, only reproducible numerical and methodological evidence. Dataset and Evidence Integrity All inputs and outputs are treated as verifiable evidence objects through: hash-locked inputs (SHA256) meta JSON execution traces deterministic pipeline behavior The dataset identity and analysis reproducibility are therefore based on cryptographic integrity rather than narrative interpretation. Methodological Core The analysis is based on a 1-minute time grid and scan-based coherence exploration, structured as: Overlap construction (target vs baseline, 1-minute grid) Wave/coherence metrics computed on physically meaningful components Grid scanning protocol (gridA) based on two complementary strategies: Prisma: short-to-mid rolling windows (localized coherence segments) Diamond: mid-to-long rolling windows (long-scale stability) This design explicitly avoids reliance on simple lag0 correlation, focusing instead on: stability under parameter changes, coherence extrema persistence, lag preference consistency across window scales. Key Findings (Evidence-Only Summary) The results highlight that: a high-resolution overlap is achieved and verified, global correlation remains weak (expected under CP364 scanning methodology), coherence structure becomes more visible through scan-based approaches, long-window aggregation (Diamond) reveals stable coherence extrema and lag preference patterns, deterministic reproducibility is supported by controlled rerun evidence. These elements qualify Apophis as a robust SOLAR External target, suitable for evidence cataloging within CP364. Reproducibility however, the release includes all aggregated metrics and scan outputs needed to evaluate signature consistency. Contents The release includes: full dossier chapters (IT + EN) CP364 scan outputs (Prisma/Diamond gridA) wave/coherence metrics tables (CSV) execution metadata (JSON) integrity verification material (SHA256) Disclaimer This release provides structured evidence of reproducible coherence signatures under the CP364 workflow. It does not claim that the detected structure is proof of a new physical mechanism, nor does it exclude conventional interpretations. Disclaimer (NASA/JPL):I Input data are sourced from NASA/JPL Horizons; published results and transformations are CP364 outputs and do not represent official NASA/JPL products. Riferimento tecnico (dataset e metodologia) Claudio Pizzuti (CP364), “SOLAR Navigator — Lagrangian Orbital System in Angular (θ) and Radial (r) coordinates”. Zenodo. DOI: 10.5281/zenodo.18422393 (30-01-2026). Claudio Pizzuti (CP364), SOLAR External — ATLAS Evidence Dossier (CP364): Wave-Metrics, Prisma/Diamond GridA, and Meta-Certified Signatures. Zenodo. DOI: 10.5281/zenodo.18444771 (02-02-2026). Lavori precedenti (contesto interpretativo CP364) Claudio Pizzuti (CP364), “Gravità come onda vorticosa elastica: Osservazioni e Analisi Trinamica”. Zenodo. DOI: 10.5281/zenodo.17039525 (04-09-2025). Documento di sintesi (visione e quadro globale SOLAR) Claudio Pizzuti (CP364), “SOLAR MANIFESTO — The dynamic reality of the Solar System in (r, θ): beyond orbits, towards the global structure”. Zenodo. DOI: 10.5281/zenodo.18427665 (30-01-2026).