SATI CODEX | Driven-Dissipative Open Quantum Field Theory of Neural Collective Coherence – Complete Mathematical Closure Edition (May 2026) Authors: Guillaume Lessard (El’Nox Rah), ORCID: 0009-0000-3465-3753 Affiliation: iD01t Research Lab | iD01t Productions, Longueuil, Quebec, Canada DOI: 10. 5281/zenodo. 18743234 Abstract / Description The SATI CODEX presents a definitive, corrected first-principles framework for neural collective coherence based on driven-dissipative open quantum field theory. Starting from a minimal (3+1) -dimensional effective Lagrangian (Eq. 1) with spontaneous symmetry breaking, the framework rigorously derives the driven Jaynes-Cummings Hamiltonian and the Lindblad master equation. Exact Heisenberg-Langevin solutions yield the master observable response function (Eq. 11): R₎₁ₒ (0;C) =4^2C (1+C) ^{2} This function exhibits a unique global maximum at the critical cooperativity C^*=1. Key contributions include: Rigorous Mathematical Proofs: Complete proofs for five core theorems: Coupling Threshold (g > 0), Strong-Coupling Detuning, Purcell Rates and Entropy Suppression, Thermal Robustness, and Information-Coupling. Bridge Theorem (BT-1): The identification of neural-QED through the reduction of a collective Dicke Hamiltonian to an effective single-mode Jaynes-Cummings model. This yields an enhanced collective cooperativity C₍ = N C₁ and defines the critical ensemble size N₂ = 1/C₁. Quantum Signatures: Exact derivation of sub-Poissonian photon statistics with a Mandel Q parameter of Q (1) = -1/4 at criticality. This is accompanied by derivations of Wigner variance (² = 3/4) and logarithmic negativity (EN 0. 35 ebits) as genuine entanglement signatures. Thermal Robustness at 310 K: A nonequilibrium mechanism utilizing Fröhlich condensation and a super-Ohmic reservoir (J () ³) is shown to protect coherent dynamics at biological temperatures. The collective Fröhlich drive (₂₎₋ 6. 02 MHz) overwhelmingly exceeds the required noise-suppression threshold (₌₈₍ 0. 004 Hz). Topological Protection: Introduction of the LCL832 quantum error-correcting code, a 832, 10, d generalized bicycle CSS code providing k=10 logical qubits with a Richardson-extrapolated fidelity of 0. 8950. Falsifiable Predictions: Six quantitative predictions (P1–P6) are established, including a mean-field critical exponent = 1/2 for critical slowing down. Keywords: quantum neuroscience, neural coherence, Jaynes-Cummings model, Fröhlich condensation, cooperativity, driven-dissipative systems, collective quantum effects, critical phenomena, consciousness theory, quantum biology. License: CC BY 4. 0 Version: Full Closure Edition – May 2026 Categories: Physics (Quantum Optics, Quantum Field Theory), Neuroscience (Theoretical), Biophysics, Non-equilibrium Statistical Mechanics. Note: This edition includes full step-by-step algebraic proofs, corrects previous typos in the second derivative expansion, and provides the two universal biological closure formulas (Eq. 16 and 17).
Guillaume Lessard (Sat,) studied this question.