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Openai/6897769e-4ee4-800f-aba5-69cca34f701c
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=== 1. Test different spatial/event-energy scales: - Use E0E_0E0 computed with proton radius or Planck length instead of Bohr radius — this changes per-event energy enormously. === # Replace nbn_bnb with local / plasma number densities: - For stars, nebulae, or plasma filaments, nnn can be 10610^6106-102010^{20}1020 m⁻³ — that boosts aggregate energy density hugely. # Model collective/coherent amplification: - If events are coherent (plasmas, double layers with many charges moving together), effective ν\nuν or effective stored energy per shell may scale with degree of coherence. # Link to observables: - Look for signatures: excess local mass-equivalent energy, effects on orbital precession, timing of atomic clocks in different plasma environments, CMB-related predictions, etc. # Iterate to include G only once you have a robust estimate for ρQAT\rho_{\rm QAT}ρQAT; then you can ask whether that density maps to curvature via Einstein equations.
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