dorsal/arxiv
View SchemaThe standing wave model of the mesons and baryons
| Authors | E. L. Koschmieder |
|---|---|
| Categories | |
| ArXiv ID | physics/0211100 |
| URL | https://arxiv.org/abs/physics/0211100 |
| DOI | 10.1016/S0960-0779(03)00247-9 |
| Journal | Chaos Solitons Fractals 18 (2003) 1129-1150 |
Abstract
Only photons are needed to explain the masses of the pi(0), eta, Lambda, Sigma(0), Xi(0), Omega(-), Lambda(c,+), Sigma(c,0), Xi(c,0), and Omega(c,0) mesons and baryons. Only neutrinos are needed to explain the mass of the pi(+-) mesons. Neutrinos and photons are needed to explain the masses of the K-mesons, the neutron and D-mesons. Surprisingly the mass of the mu-meson can also be explained by the oscillation energies and rest masses of a neutrino lattice. From the difference of the masses of the pi(+-) mesons and mu(+-) mesons follows that the rest mass of the muon-neutrino is 47.5 milli-eV. From the difference of the masses of the neutron and proton follows that the rest mass of the electron-neutrino is 0.55 milli-eV. The potential of the weak force that holds the lattices of the particles together can be determined with Born's lattice theory. From the weak force follows automatically the existence of a strong force between the sides of two lattices. The strong nuclear force is the sum of the unsaturated weak forces at the sides of each lattice and is therefore 10^6 times stronger than the weak force.
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"abstract": "Only photons are needed to explain the masses of the pi(0), eta, Lambda,\nSigma(0), Xi(0), Omega(-), Lambda(c,+), Sigma(c,0), Xi(c,0), and Omega(c,0)\nmesons and baryons. Only neutrinos are needed to explain the mass of the pi(+-)\nmesons. Neutrinos and photons are needed to explain the masses of the K-mesons,\nthe neutron and D-mesons. Surprisingly the mass of the mu-meson can also be\nexplained by the oscillation energies and rest masses of a neutrino lattice.\n From the difference of the masses of the pi(+-) mesons and mu(+-) mesons\nfollows that the rest mass of the muon-neutrino is 47.5 milli-eV. From the\ndifference of the masses of the neutron and proton follows that the rest mass\nof the electron-neutrino is 0.55 milli-eV. The potential of the weak force that\nholds the lattices of the particles together can be determined with Born\u0027s\nlattice theory. From the weak force follows automatically the existence of a\nstrong force between the sides of two lattices. The strong nuclear force is the\nsum of the unsaturated weak forces at the sides of each lattice and is\ntherefore 10^6 times stronger than the weak force.",
"arxiv_id": "physics/0211100",
"authors": [
"E. L. Koschmieder"
],
"categories": [
"physics.gen-ph"
],
"doi": "10.1016/S0960-0779(03)00247-9",
"journal_ref": "Chaos Solitons Fractals 18 (2003) 1129-1150",
"title": "The standing wave model of the mesons and baryons",
"url": "https://arxiv.org/abs/physics/0211100"
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