TITLE:
Human Quantitative Electroencephalographic and Schumann Resonance Exhibit Real-Time Coherence of Spectral Power Densities: Implications for Interactive Information Processing
AUTHORS:
Michael A. Persinger, Kevin S. Saroka
KEYWORDS:
Schumann Resonances, Human Brain Activity, Coherence, Memory Consolidation, Pico Tesla Magnetic Fields, Photon Emissions
JOURNAL NAME:
Journal of Signal and Information Processing,
Vol.6 No.2,
May
25,
2015
ABSTRACT: Spectral Power Densities (SPD) within the
Quantitative Electroencephalographic (QEEGs) Profiles of 41 men and women
displayed repeated transient coherence with the first three modes (7 - 8 Hz, 13
- 14 Hz, and 19 - 20 Hz) of the Schumann Resonance in real time. The duration
of the coherence was about 300 ms about twice per min. Topographical map clusters
indicated that the domain of maximum coherence was within the right caudal
hemisphere near the Parahippocampal gyrus. These clusters, associated with
shifts of about 2 μV, became stable about 35 to 45 ms after the onset of the
synchronizing event. During the first 10 to 20 ms, the isoelectric lines
shifted from clockwise to counterclockwise rotation. The results are consistent
with the congruence of the frequency, magnetic field intensity, voltage
gradient, and phase shifts that are shared by the human brain and the
earth-ionospheric spherical wave guide. Calculations indicated that under
certain conditions interactive information processing might occur for brief
periods. Natural and technology-based variables affecting the Schumann
parameters might be reflected in human brain activity, including modifications
of cognition and dream-related memory consolidation.