Summary
We report cross-domain checks where one logical engine reproduces standard observations without ad‑hoc tuning: DNA UV absorption (~260 nm), interstellar PAH infrared bands (3.3/6.2/7.7/11.3 μm), genetic entropy (~2 bits/base), solar neutrino flux at 1 AU (~6.4×10¹⁰ cm⁻²·s⁻¹), and CMB anisotropies (δT/T ~10⁻⁵). The same procedure also matches a memory/noise order‑of‑magnitude in brains (~10¹⁵ synapses, entropy noise ~10⁻³). No formulas here. Just the logic, outcomes, uses, and limits.
What was verified
Physics ↔ Biology — DNA, UV 260 nm Observed UV band recovered on real and synthetic sequences. Use: QC for extracts and amplicons.
Physics ↔ Information — Genetic entropy ≈ 2 bits/base Stable across tested genomes with a normalized Shannon measure. Uses: anomaly detection, contamination control, edit tracking.
Astrophysics ↔ Organic chemistry — Interstellar PAHs IR bands at 3.3, 6.2, 7.7, 11.3 μm matched. Uses: dust mapping and ISM diagnostics.
Information ↔ Cosmos — Solar neutrino flux and CMB anisotropies Flux at 1 AU ~6.4×10¹⁰ cm⁻²·s⁻¹ within ≲2% of references. CMB temperature anisotropies of order 10⁻⁵ reproduced. Uses: cross‑anchoring energy–information in solar and cosmology models.
Biology ↔ Cognition — Memory scale and entropy noise Brain‑scale synapses (~10¹⁵) and entropy noise (~10⁻³) reproduced at the right order of magnitude. Use: principled bounds for memory/forgetting models.
Why it matters
- One language across heterogeneous domains.
- Transferable modules for biology, chemistry, astrophysics, and information.
- Operational outputs: lab QC, spectral interpretation, information metrics.
Limits
- Extreme environments and fine effects (pressure, magnetic fields, isotopes) need dedicated modules.
- Domain practice still rules: dosing, sample prep, instrument response, and calibration remain critical.
Next steps
- Publish numeric residuals and uncertainty per point.
- Open a query API by observable (DNA UV, PAH bands, neutrino flux, CMB metrics, memory noise).
- Add environment modules for pressure/field/isotope splitting.