Abstract
Excess correlation between the activity or properties of two particles separated by non-local distances has been demonstrated for photons, shifts in relative proton and hydroxyl ratios in spring water, and the distribution of values from random number generators if both loci shared a specific type of rotational magnetic field. Previous experiments had shown that specific responses from pairs of people who shared circumcerebral magnetic fields with changing angular velocities revealed significant excess correlation. The most significant differences occurred during the component of the field exposure that has previously been associated with “excess correlation”. In the present experiments, we found evidence of excess correlation of performance (serial in-game scores) occurred between pairs (separated by 10 m) of experienced gamers during the relative measures for the central portion of the protocol but was diminished when the “excess correlation” electromagnetic fields were activated, suggesting a similar competing mechanism. The results are consistent with the interpretation that shared video systems and activities may enhance excess correlation of responses. This can be simulated in novice players by experimentally inducing excess correlation through appropriate application of changing, circumcerebral angular velocity magnetic fields that were similar in magnitude to those associated with computer systems and time frames that define human consciousness.
Highlights
According to Aczel [1], entanglement is one of the greatest mysteries in physics
Dotta and Persinger [2] found that when two chemiluminescent reactions shared the same circular-rotating magnetic fields that exhibited specific uncoupling between the group and phase velocities, the injection of the reactant into both solutions simultaneously resulted in a doubling of the photon emissions
The concept of excess correlation predicts that if two complex systems have shared a space-time condition such that a subset of one is contained in the other as well as vice versa, a subsequent change in one of the two regardless of spatial separation should be associated with a complimentary change in the other
Summary
The empirical demonstration of entanglement requires an excess correlation between the responses of two units in non-local space. Non-local space means that the mutual responses of the two units occur over any distance (and potentially any time) and are not limited to the mechanisms required for locality. The latter can only occur if there is a medium through which a force or energy can be mediated and diminishes in some systematic manner as a function of the distance between the two units. The excess correlation behaved as if the two non-local spaces and been transiently superimposed into the same locus such that the reaction was twice as intense
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