High Energy Particle Physics

   

Explaining the Variation of the Proton Radius in Experiments with Muonic Hydrogen

Authors: Policarpo Yōshin Ulianov

In experiments for proton radius measurement that use muonic hydrogen, the value obtained was four percent below the expected standard value, which is not explained by quantum electrodynamics. This article theoretically explains this results and presents an equation that calculates the proton radius, which coincides with the value obtained in muonic hydrogen experiments, with a difference of only 0.07 percent. These results are based on Ulianov String Theory (UST), a new String Theory, which is able to model the most important particles in our universe as photons, protons, electrons, neutrons, muons and positrons. The author believes that the experiment with Muonic Hydrogen represents a breakthrough in modern physics, because it points out flaws in the standard model and opens space for new theories that model the electron and proton as strings. The experience with muonic hydrogen may lead to a model in which the electron is no longer a "small ball" orbiting the nucleus and it turns into a two-dimensional brane surrounding the nucleus. Thus, this experiment has the potential to be so important, such as the historical experience of the Michelson interferometer, which marked the end of the preponderance of the Newtonian mechanics.

Comments: 16 Pages.

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Submission history

[v1] 2012-01-25 13:45:35

Unique-IP document downloads: 162 times

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