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Compton Wavelengths for the Proton and Electron May Differ by Hyperspace Geometry: Are they the same Particle Bifurcated?

The discrepancy between the Compton wavelength of a proton and an electron has been assumed to reflect some shared variable with their respective masses. However this discrepancy of 1.83.10 super( 3) is remarkably similar to the geometric constant (21.3 pi super( 4)) derived from the product of four...

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Published in:	International letters of chemistry, physics and astronomy physics and astronomy, 2015-01, Vol.61, p.101-101
Main Authors:	Persinger, Michael A, St-Pierre, Linda S
Format:	Article
Language:	English
Subjects:	Astronomy Boundaries Constants Diffusivity Gravitational constant Particle physics Universe Wavelengths
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description	The discrepancy between the Compton wavelength of a proton and an electron has been assumed to reflect some shared variable with their respective masses. However this discrepancy of 1.83.10 super( 3) is remarkably similar to the geometric constant (21.3 pi super( 4)) derived from the product of four dimensional space-time for closed circular boundaries. This same formulation, when the appropriate powers for Newton's Gravitational Constant and the mass, duration, and length of the universe were multiplied, resulted in a diffusivity value that has been considered a potential entanglement velocity. This value is the same order of magnitude as the ratio of 2 pi multiplied by the neutral hydrogen wavelength divided by a quantum "jiffy". The quantifications suggest that the difference between the space, as inferred by wavelength, occupied by the electron and the proton are related by the geometric structure of space-time. Their distinctions as different particles are manifested when the temporal increments of observations are much, much less than the duration of the universe.
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title	Compton Wavelengths for the Proton and Electron May Differ by Hyperspace Geometry: Are they the same Particle Bifurcated?
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