The Proton Radius Prediction and Gravitational Control
Date: Sunday, July 20, 2014 @ 01:14:41 EDT
On December 20th 2012, Director of Research at The Hawaii
Institute for Unified Physics and The Resonance Project Foundation,
Nassim Haramein registered a copyright at the Library of Congress (click here to see a copy of the online entry) for his paper Quantum Gravity and the Holographic Mass (QGHM), which was eventually published in the peer-reviewed journal Physical Review & Research International.
In his manuscript, Haramein utilized Planck spherical units (PSU) to
describe the holographic vacuum fluctuations and extremely accurately
predict the charge radius of the proton (the radius of the proton is
typically more accurately described as the charge radius because all we
can say about the proton is that there is a concentration of positive
charge in that region of space which defines what we would think of as
the surface of the proton).
Shortly after Haramein’s submission of his paper to the Library of Congress, on January 25th 2013 a new muonic measurement of the proton was made which agreed with Haramein’s prediction extremely well (within 0.000366 x 10-13cm
of the measured value), as the prediction is inside one standard
deviation of the experiment, or loosely speaking within the margin of
error of the experiment. Therefore, Haramein’s value, extrapolated from
precise theoretical tenets, may be the exact value and experiments are
now approaching the resolution necessary to arrive to it. On February 1st
2013, Haramein submitted another manuscript for copyright to the
Library of Congress to report on the confirmation of the prediction,
called Addendum to “Quantum Gravity and the Holographic Mass” in View of
the 2013 Muonic Proton Charge Radius Measurement (click here to see the online entry or click here to search US Copyright website), but this paper was never published. We are now making this short paper available here.
Full article: http://resonance.is/the-proton-radius-prediction-and-gravitational-control/