TITLE:
H, W, Z Bosons, Dark Matter: Composite Particles?
AUTHORS:
Raymond Fèvre
KEYWORDS:
Higgs Boson, W and Z bosons, Dark Matter, Pi-Mesons, Composite Particle
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.7 No.2,
April
27,
2021
ABSTRACT: The present article develops a model initially published in ref. [1]. It is a quasi-classical quantum model of composite particles with ultra-relativistic (UR) constituents (leptons and quarks). The model is used to calculate the mass energy of three composite particles: a UR tauonium, a UR bottomonium and a UR leptoquarkonium. The result is that these three hypothetic particles have masses close to 125 GeV: the Higgs boson mass energy. These results are recalled in the present article. Then the model is extended to calculate the mass energy of pi-mesons, W and Z bosons. Finally, the model provides a hypothesis on dark matter.