A Unifying Equation for almost all Constituent Quarks Masses, of Cold and Hot Genesis

Abstract

 By a Cold Genesis pre-quantum theory of particles and fields, (C.G.T.), based on Galilean relativity,  which explains the constituent quarks and the resulting elementary particles as clusters of degenerate negatron-positron pairs

(g^*(e^-*e^+*)) which form basic z⁰ -preons of ~34 m_e which represent the CGT’s prediction for the subsequent discovered boson X17 and which in CGT generates preonic bosons z₂(4z⁰)  and z_p(7z⁰)  and constituent quarks in a preonic model, an unifying equation for the constituent mass of almost all quarks is obtained from two equations, one for the preonic  quarks (u-up, d-down, s-strange) in de Souza/CGT mass flavor  and another for the heavy quarks (c-charm and b-bottom)- obtained for the both mass variants: CGT/Souza and Standard Model, the unifying equation resulting by the use of four parameters representing integer numbers from 0 to 3: of clustering: (k₁ ; k₂) £ 3 -for the number of z₂- and z_p- preonic bosons, a flavor number f = (1;2), with f = 1 for S.M.’s flavors and f = 2 for Souza/CGT flavors, compositeness number n = (1¸4): n = 1 for light/semi-light quarks; n >1 for heavy quarks) and by a multiplication factor a_q = (2n -1 -2^n-1), the value n=4 giving a predicted quark, of constituent mass ~15 GeV/c². The Souza/CGT mass variants of the heavy quarks c (chark, ~1.7 GeV/c²) and b (bark, 5 GeV/c²) specific to baryons, are argued by the explaining of their forming from nucleonic quarks, by an intermediary plasmic drop- state.