Quantitative Discrepancy in Cerebral Hemispheric Temperature Associated with Two Consciousnesses is Predicted by NeuroQuantum Relations

NeuroQuantological principles predict that equations applicable within the microcosmic world should also be valid within macroscopic brain space. We tested the hypothesis that the human brain exists in two different energy states associated with the two hemispheres. The quantal equation f=(Ea-Eb)/h, where Ea is the energy of state a and Eb is the energy of state b and h is Planck s constant, and the solution for temperature from Boltzmann s constant predicted that a difference of only 1 deg C between the two cerebral hemispheres would be sufficient to produce disparities within brain space. This transient condition could facilitate the intrusions into awareness of another consciousness reported as a sensed presence. The results supported our prediction. Moderate strength correlations were found between the report of a sensed presence and the increase in tympanic membrane temperature in the right ear compared to the left ear following 30 min exposure to an optimal environment that involved weak, transcerebral magnetic field stimulation whose point durations could access quantal dimensions.