%0 Journal Article
%T A Pursuit of Quantum Neuroscience¡¯s Principles: Coherence Field Theory and the Physics of Mind
%A Eric Bond
%J World Journal of Neuroscience
%P 57-67
%@ 2162-2019
%D 2022
%I Scientific Research Publishing
%R 10.4236/wjns.2022.122007
%X Some basic physics of burgeoning quantum
neuroscience is described. Anatomy of the neuron suggests that nonsynaptic
mechanisms of signal transmittance occur via electric current acceleration and
companion electromagnetic field fluctuation. I have named this mechanism of
solution chemistry the ebb effect. Phase-locking between neural structure and
electric fields that are emergent from cellular EM field fluctuations, in
addition to feedback loops within neural networks, are the probable driver of
macroscopic oscillation and flow shapes in the brain. CEMI (conscious
electromagnetic information) theory is a promising framework for explaining
intentionality and the spectrum of arousal as EM field effects. Relatively low
frequency electromagnetic radiation is emitted by the accelerating electric
currents of neurons. It is hypothesized that this EM radiation superpositions
with molecular structure as it spreads to comprise percepts, the hybrid
wavelengths of which form subjective images while wavelength vibrations result
in subjective feel. These superposition arrays are termed a coherence field,
and in combination with the synchronizing influence of quantum entanglement and
electromagnetic fluctuations may constitute much of awareness¡¯ substance. If
conclusively verified, coherence field theory should have significance ranging
from the treatment of perceptual disorders such as anosognosia to advancing
foundational constructs like atomic theory.
%K Quantum Coherence
%K Wave Particle Duality
%K Superposition
%K Entanglement
%K Electromagnetic Field
%K Electromagnetic Radiation
%K Ebb Effect
%K CEMI
%K Atomic Theory
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=117083