On Particles Mass and the Universons Hypothesis

Jacques Consiglio


In the logic of the Universons assumption, we deduce the nature of De Broglie wave and periodic mass variation for particles. We verify consistency with quantum mechanics, in particular the Schrödinger equation.

We analyze the hypothesis that elementary particle mass is momentum circulating at light speed. We discover resonance rules acting within elementary particles leading to a formula governing the quantization of masses.

Applying this formula to the electrons, muons, tauons and quarks, we find resonances that match with current measurements. We deduce the energy of unknown massless sub–particles at the core of electrons, muons, and tauons.

Geometrical constraints inherent to our formula lead to a possible explanation to only three generations of particles.

Based on particles geometry, we verify the consistency of the deduced quarks structure with QCD and raise the hypothesis that color charge is magnetic. We verify consistency with QCD symmetry and find that P and CP symmetry are broken by the interaction, in agreement with weak force knowledge.

Our logic leads to re–interpret the Dirac condition on magnetic monopole charge, explain why the detection of magnetic monopoles is so difficult and, when detected, why magnetic charge can depart from Dirac prediction.

We deduce a possible root cause of gravitation, resulting in the Schwarzschild metric and probable non existence of dark matter.

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DOI: http://dx.doi.org/10.5539/apr.v4n2p144

Applied Physics Research   ISSN 1916-9639 (Print)   ISSN 1916-9647 (Online)

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