Abstract
This study integrates DNA resonance codes, microtubule oscillations, and astrocyte-mediated biomagnetic fields into a unified theoretical framework explaining consciousness as a macroscopic quantum phenomenon. By integrating advanced AI-driven analyses of EEG, NMR, and calcium imaging data, we demonstrate compelling evidence of quantum processes in neural systems. Key findings include: (1) nuclear spins in phosphate molecules (Posner clusters) acting as stable qubits with prolonged coherence times; (2) DNA resonance codes (1-10 THz) modulating neural activity via frequency-locking with microtubule vibrations; and (3) astrocyte-generated biomagnetic fields suppressing decoherence, thereby enabling sustained quantum states in neurons despite the warm, wet environment of the brain. Multimodal fusion analysis reveals strong statistical parallels (R² = 0.79-0.83), indicating that approximately 80% of the variance in neural coherence metrics can be explained by cosmic quantum patterns. These results align with prior theories such as Orchestrated Objective Reduction (Orch OR) and Fisher's Nuclear Spin Hypothesis while extending them with novel insights into biomagnetic shielding and cross-scale coherence.
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Jalal Khawaldeh.
Quantum Cosmic Consciousness Code - QCCC By Jalal Khawaldeh (2025). Authorea. 31 March 2025.
DOI: https://doi.org/10.22541/au.174345560.00477705/v1
DOI: https://doi.org/10.22541/au.174345560.00477705/v1
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