Bound State Description of Particles from a Quantum Field Theory of Fermions and Bosons, Compatible with Relativity ()
ABSTRACT
Both, the dilemma to find a quantum field theory consistent with Einstein’s law of relativity and the problem to describe existing particles as bound states of matter has been solved by calculating bound state matrix elements from a dual fermion-boson Lagrangian. In this formalism, the fermion binding energies are compensated by boson energies, indicating that particles can be generated out of the vacuum. This yields quantitative solutions for various mesons ω (0.78 GeV) - Υ (9.46 GeV) and all leptons e, μ and τ, with uncertainties in the extracted properties of less than 1‰. For transparency, a Web-page with the address htpps://h2909473.stratoserver.net has been constructed, where all calculations can be run on line and also the underlying fortran source code can be inspected.
Share and Cite:
Morsch, H. (2024) Bound State Description of Particles from a Quantum Field Theory of Fermions and Bosons, Compatible with Relativity.
Journal of High Energy Physics, Gravitation and Cosmology,
10, 562-573. doi:
10.4236/jhepgc.2024.102035.
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