Complete Dielectric Resonator Model of Human Brain from MRI Data A Journey from Connectome Neural Branching to Single Protein

" Using freely available MRI data of structural components mapping of human brain from different universities (primarily Rajat Jain, 25; 38-years-old lady from UK), we have built actual structural database of the human brain components, e.g., neural network connectome data, blood vessel map, ventricles, cavities for cerebral-spinal fluid, hippocampus regions of midbrain, etc. In previous studies, we have argued that every single element in the brain behaves as dielectric resonator. Here, we run rigorous dielectric resonance simulation to verify the hypothesis that the scale-free resonance does exist in the material architecture of the brain. From MRI-derived structures, we simulate the resonance frequencies, distribution of electric, and magnetic field of the brain components in CST and detect the phase response behavior, specially phase transition and symmetry breaking as a function of resonance frequency. We find that electric and magnetic fields distribute inhomogeneously in the dielectric structure, not just in the neural branches but also in the blood vessels and proteins like axon and microtubule bundles. The resonance frequencies show a characteristic topological pattern, specially, every single brain component is splitting electromagnetic field in such a way that at certain frequencies magnetic field dominates and at certain resonance frequency, electric field dominates. This distinct behavior of splitting fields at all spatial and time scale was never reported before. We speculate that there may exist a unified geometric pattern hidden in the vibrational frequencies of the brain components, which hold important information for the brain’s information processing."

Last modified on 08-Nov-18

/ EMMIND - Electromagnetic Mind