The Entangled Neuro-Quantum Architecture (ENQuA): A Framework for Multi-Brain Quantum-Enhanced Cognition

This paper introduces the Entangled Neuro-Quantum Architecture (ENQuA), a hypothetical framework for a network of human brains interfaced with a central quantum computer. Building upon the 2025–2026 experimental validation of robust quantum phenomena in biological systems—including room-temperature protein-based qubits and confirmed superradiance in tryptophan networks—we propose a hybrid network topology. The ENQuA leverages microtubules as local quantum processors and superradiant tryptophan networks as ultra-fast "quantum buses" for inter-neural signaling. The interface utilizes non-invasive Motif DOT XCS technology and Nitrogen-Vacancy (NV) center sensors to bridge biological and synthetic quantum states. We address decoherence through the "3-Layer Quantum Brain Hypothesis," combining long-lived nuclear-spin memory with radical-pair reservoirs and motional-narrowing stabilization. The architecture’s capabilities include unified conscious experience and hybrid neuromorphic-quantum computation. Finally, we analyze the 2026 UNESCO mandate for Quantum Neurorights. This work synthesizes the latest breakthroughs in quantum biology, neuromorphic engineering, and neuroethics to propose a scientifically grounded vision for the future of collective cognition.