Research ReportPhoton emissions from human brain and cell culture exposed to distally rotating magnetic fields shared by separate light-stimulated brains and cells

Light flashes delivered to one aggregate of cells evoked increased photon emission in another aggregate of cells maintained in the dark in another room if both aggregates shared the same temporospatial configuration of changing rate, circular magnetic fields. During the presentation of the same shared circumcerebral magnetic fields increases in photon emission occurred beside the heads of human volunteers if others in another room saw light flashes. Both cellular and human photon emissions during the light flashes did not occur when the shared magnetic fields were not present. The summed energy emissions from the dark location during light stimulation to others was about 10−11 W/m2 and calculated to be in the order of 10− 20 J per cell which is coupled to membrane function. These results support accumulating data that under specific conditions changes in photon emissions may reflect intercellular and interbrain communications with potential quantum-like properties.

Research highlights► We showed photon emission from cells “stressed” by removal from incubation. ► Cells in the dark magnetically yoked to distant cells that receive light flashes emit photons. ► The amount of photon emission changed with different magnetic angular velocities. ► Photon emissions to brief experimental fields were similar to natural fields for greater durations. ► Human subjects in the dark magnetically yoked to distant subjects receiving light emit photons.