Theoretical and Experimental Evidence of Macroscopic Entanglement Between Human Brain Activity and Photon Emissions: Implications for Quantum Consciousness and Future Applications
Abstract
Entanglement has been described as excess correlation between separated parts of a quantum system that may exceed the boundaries of light velocity across space and time. The concept of macroscopic entanglement is considered an emergent condition of microscopic or quantum entanglement such that functional relationships between electron spin, orbital time and photon movements allow an interface with biological systems, particularly brain activity and function. Quantitative evidence is provided for such macroentanglement and discussed with respect to consciousness and electromagnetic fields, photon emissions from the human brain and geomagnetically based contributions, where quantitative convergence suggests processes associated with thinking could be linked to intrinsic characteristics of the electron from which quantum entanglement would emerge.
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