Electron and its symmetry as basic elements of particle mass spectrum and discreteness in nuclear data

Abstract

An analysis of empirical correlations in particle masses and nuclear data confirmed the great role of lepton masses (me, mμ), parameters of the Nonrelativistic Constituent Quark Model and the QED radiative corrections in the Standard Model development. Integer relations (1:13:16:17:18:54) between doubled value of the pion β-decay energy (close to 16me=δ=8.176 MeV), the muon mass, the pion parameters (fπ=130.7 MeV, mπ) and the NRCQM parameters ΔMΔ=147 MeV=(mΔ−mN)/2 and Mq=mΞ/3 are compared with the masses of quarks and fundamental fields and with the number of fermions in the central field. Confirmations of the period 16me were obtained from the analysis of CODATA relations (exact ratios of the masses of nucleons to the electron mass) and global analysis of nuclear data.