Vacuum structure, spectrum of excitations and low-energy phenomenology in chiral preon-subpreon model of elementary particles

Physics – High Energy Physics – High Energy Physics - Phenomenology

Scientific paper

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20 LaTeX pages, 8 figures

Scientific paper

Inner and empirically consistent model of elementary particles, including two matter structural levels beyond the quark one is built. Excitations spectra, masses and interactions are analysed using the phenomenological notion of non-pertubative vacuum condensate. Essential low-energy predictions of developed concepts are classified. Effective gauge U(1)xU(1)xSU(2)-theory of quark-lepton excitations behavior based on the performed analysis of preon-subpreon phenomenology is consistently built. The ability of its expansion with fermions and scalar leptoquark coupling is also considered. Shown that the coupling constants generation hierarchy is the same as generation hierarchy of quark masses. Using the built theory cross-sections of d-quark-positron scattering processes with both charged and neutral currents are calculated. The obtained resonance peak is proposed to be a possible explanation of deviating from Standard Model predictions discovered in DESY in the beginning of 1997 year.

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