Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
1994-10-10
Physics
High Energy Physics
High Energy Physics - Theory
75 pages,latex. Revision: recent experimental results the prediction of neutrino masses
Scientific paper
This paper belongs to a series devoted to the calculation of particle masses in p-adic conformal field theory limit of TGD. In paper III elementary particle masses were calculated. In this paper the results are analyzed. One can reproduce lepton and gauge boson masses exactly by taking into account Coulomb self energy associated with the interior of 3-surface and a small mixing of boundary topologies of charged leptons. Hadronic mass formula in- volves boundary contributions of quarks calculated previously plus interior term consisting isospin-isopin, color magnetic spin-spin and color Coulombic terms. One must take also into account mixing of boundary topologies, the mixing for primary condensate levels (quark spends part of time at lower condensate level) and mixing of I=0,J=0 mesons. Topological mixing implies the nontriviality of CKM matrix. An open question is how uniquely rationality require- ment fixes CKM matrix. It is possible to reproduce CKM matrix sa- tisfying the empirical constraints. CP breaking is a number theo- retical necessity. The large mixing of u and c quarks solves the spin crisis of proton. The parameters associated with other O(p) contributions can be fixed by no Planck mass condition plus some empirical inputs. O(p^2) contributions are also discu- ssed and observed isospin splittings can be reproduced.
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