Journal of Theoretical & Computational Science

Journal of Theoretical & Computational Science
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ISSN: 2376-130X

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Precise Calculation of the Up and Down Quark Mass Using an Adjusted Compton Wavelength Common Factor Analysis

Brian DN

This paper presents an analytical method used to calculate a precise value of the up and down quark masses. The method used is based on a hypothesis that elementary particles share force carrier particles with precise quantities of energy in order to bond using integer multiples of their adjusted Compton wavelengths in addition to their deBroglie momentum wavelengths. Overlapping wavelengths were found by converting mass and coupling energies into large integers using an integer based derivation of Einstein’s energy momentum equation. Both the (uud) proton and (udd) neutron structures were modeled, and the 2010 CODATA neutron-proton mass ratio was used to narrow the range of uncertainty in the quark mass calculations. The up and down quark mass search range extended from 0-6.2 MeV and 0.8-8.8 MeV respectively, with the largest common factor spike appearing within the QCD predicted values suggesting this method is valid.

u=2.24311 ± 0.00046 MeV

d=4.82977 ± 0.00046 MeV

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