Abstract
Excess correlations, one of the quantitative demonstrations of “entanglement”, have been experimentally demonstrated as spontaneous shifts in photon properties and molecular interactions. The magnitudes of the excess correlations have been enhanced experimentally for photon emissions and proton densities in aqueous solutions when the loci containing these physical chemical reactions shared circular magnetic fields whose angular velocities were always changing. In the present experiment, quantities of spring water each placed in one of two loci (local or non-local) separated by 100 or 10,000 m were exposed simultaneously to toroidal magnetic fields within a paradigm that has been shown to produce conspicuous excess correlations in shifts of photon emissions, pH in spring water, and human brain activity as inferred by electroencephalography. The non-local area that was not injected with proton donors displayed a reliable shift in pH when the local area was serially injected with small aliquots of protons but only during the presentations of the field parameters known to produce “entanglement”. The effect was most obvious when the global geomagnetic activity was less than Kp < 3. The probability is high that convergent similarities in the magnitudes of the local geomagnetic intensities of the two loci enhance the strength of the excess correlations. These results suggest that a minimal energy and inexpensive system, not involving classical electromagnetic transmission through a medium, but influenced by the global geomagnetic field activity, could be employed to generalize and superpose information between two non-local spaces.
Highlights
Phenomena produced by non-local mechanisms or processes are described by the excess correlations of some measurement between two loci separated by non-traditional distances [1]
In the experiments reported here we showed that non-local alterations in proton densities as inferred by measureable shifts in pH when two loci shared the same changing angular velocity toroidal magnetic fields could be demonstrated over the furthest distance tested which was about 10 km
We suggest that the actual physical mechanisms by which entanglements occur, like other phenomena, should
Summary
Phenomena produced by non-local mechanisms or processes are described by the excess correlations of some measurement between two loci separated by non-traditional distances [1]. The establishment of the manifestation of non-local phenomena at macroscopic levels would be important to chemistry, physics, and astronomy because information could be transposed and superposed over any two space-time coordinates. This could potentially alter interpretations regarding the dispersion of similarities of properties for chemical and biological systems across vast distances and durations. Arnesen et al [1] have stated “it is well known that distinct quantal systems can be correlated in a stronger classical manner” This phenomenon has been labelled as excess correlation or entanglement. The resulting quantum teleportation, as described by Olmschenk et al [5], produces reliable transfer of quantum states
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