Speaker
Kazuyoshi Kitazawa
(Mitsui Chemicals)
Description
In preceding paper 1) the mass and the basic structure of SM Higgs boson (H0) were discussed by obtaining asymptotic solution for the Euler-Lagrange equation of nonlinear Klein-Gordon type, in Higgs field with newly developed mass triangle method.
In this paper we at first see that the ground state mass of glueball (GB) is calculated at 502.55 MeV/c2 which is expected as f0(600) meson’s mass. The GBs will attract mutually with neighbors among original their components of gluons in different colors, so that they could gradually form cluster. And we show that our computed masses of f0(1370), f0(1500) and f0(1710) are within each f0 meson’s mass from experiment while they will construct respective fullerene structure for ur-H0 as well as f0(600), provided that the mass of ur-H0 (120.611 GeV/c2) will consist of a number of masses of GB or f0 in which all (pure) GB fullerene may have an icosahedral (Ih) rotational symmetry. Finally we propose a representation by which f0 mesons masses above are reproduced respectively with masses of several light pseudoscalar mesons such as η0, K0, K0_bar, K±, π0, π± and GB, under the consideration of those junction networks. Where the mass of f0(1500) is described only by the mass of GB. And also ur-H0 will transform into H0 under mass invariance through, for instance, γf0 reaction to ηc as its component via radiative decay of J/ψ. Along with these discussions, a massive gluon propagator for virtual top quark-pair decay is calculated by Bethe-Salpeter equation.
1)Kazuyoshi Kitazawa, APS APRIL MEETING 2011, K1.00034.
Primary author
Kazuyoshi Kitazawa
(Mitsui Chemicals)
