FULL CLOSED FRCFD SYSTEM (WITH VELOCITY SATURATION)
FULL CLOSED FRCFD SYSTEM (WITH VELOCITY SATURATION) 1. Operational Velocity (Field‑Derived) v² = c² · |∇Ψ|² / [ (∂ₜΨ / c)² + |∇Ψ|² ] 0 ≤ v ≤ c • Derived purely from local excitation gradients • No external or frame‑dependent input 2. Saturating Coupling Function κₛₐₜ(v) = κ₀ · tanh(v / c) κₛₐₜ(v) ≈ κ₀ (v / c) for v ≪ c κₛₐₜ(v) → κ₀ as v → c 3. Substrate Field Equation (S) ∂²S/∂t² − c²∇²S + βS³ = κₛₐₜ(v) · SΨ − γ₀ (1 + η S² / Sₘₐₓ²) · ∂S/∂t + σ Θ(T[Ψ] − T₍cᵣᵢₜ₎) · max(0, 1 − S / Sₘₐₓ) 4. Excitation Field Equation (Ψ) ∂²Ψ/∂t² − vΨ² ∇²Ψ + μΨ + λΨ³ = κₛₐₜ(v) · SΨ • Same saturating coupling ensures reciprocal energy exchange • vΨ ≤ c 5. Curvature Regulator (“Snap”) Fᴿ = Θ(T[Ψ] − T₍cᵣᵢₜ₎) · max(0, 1 − S / Sₘₐₓ) T[Ψ] = ∫ (Ψ² + ℓ² |∇Ψ|²) dV 6. Emergent Metric (Velocity‑Dependent) gᵉᶠᶠ_μν = G_μν(S, Ψ, Fᴿ, κₛₐₜ(v)) gᵉᶠᶠ_rr(v) = g_rr⁽⁰⁾ + Δg_rr(tanh(v / c)) 7. Nonlinear Distance Plateau (High‑Velocity Limit) v → c ⇒ κₛₐₜ(v)...
