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Cerebral Dynamics and Discrete Energy Changes in the Personal Physical Environment During Intuitive-Like States and Perceptions

Mathew D. Hunter, Blake T. Dotta, Bryce P. Mulligan, Kevin S. Saroka, Christina F. Lavallee, Stanley A. Koren, Michael A. Persinger

Abstract


The attribution of unobservable cognitive states to others, a component of the "Theory of Mind", involves activity within the right temporoparietal region. We tested an exceptional subject, Sean Harribance, who displayed a reliable, consistent configuration of QEEG activity over this region that was confirmed through source localization software. The blind-rated accuracies of the histories of 40 people shown in 40 different photographs were strongly correlated with the quantitative occurrence of this conspicuous QEEG pattern displayed during Mr. Harribance’s “intuitive state”. The proportions of specific microstates were also strongly correlated with his accuracy of discerning the historical characteristics of the people in the photographs. Compared to the normal population his microstates were half the duration and his sense of “now” was about twice as fast as the average person. During his intuitive states there was strong congruence of activity between the left temporal lobes of participants who sat near Mr. Harribance and the activity over his temporal (primarily right) lobes within the theta and 19-20 Hz band. Reversible increases in photon emissions and small alterations in the intensity within the nearby (up to a 1 meter) geomagnetic field along the right side of his head were equivalent to energies of about 10-11 Joules with amplitude modulations in the 0.2 to 0.6 Hz range. The results indicate even exceptional skills previously attributed to aberrant sources are variations of normal cerebral dynamics associated with intuition and may involve small but discrete changes in proximal energy.


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ISSN: 2153-8212