Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
1996-01-25
Nucl.Phys.B487:55-92,1997
Physics
High Energy Physics
High Energy Physics - Phenomenology
54 pages, phyzzx.tex, tables.tex, epsf.tex. Includes 3 tables and 11 figures. Final version to be published in Nuclear Physics
Scientific paper
10.1016/S0550-3213(96)00682-7
I discuss the calculation of the heavy generation masses in the superstring derived standard-like models. The top quark Yukawa coupling is obtained from a cubic level mass term while the bottom quark and tau lepton mass terms are obtained from nonrenormalizable terms. The calculation of the heavy fermion Yukawa couplings is outlined in detail in a specific toy model. The dependence of the effective bottom quark and tau lepton Yukawa couplings on the flat directions at the string scale is examined. The gauge and Yukawa couplings are extrapolated from the string unification scale to low energies. Agreement with $\alpha_{strong}$, $sin^2\theta_W$ and $\alpha_{em}$ at M_Z is imposed, which necessitates the existence of intermediate matter thresholds. The needed intermediate matter thresholds exist in the specific toy model. The effect of the intermediate matter thresholds on the extrapolated Yukawa couplings in studied. It is observed that the intermediate matter thresholds also help to maintain the correct $b/\tau$ mass relation. It is found that for a large portion of the parameter space that the LEP precision data for $\alpha_{strong}$, $sin^2\theta_W$ and $\alpha_{em}$, as well as the top quark mass and the $b/\tau$ mass relation can all simultaneously be consistent with the superstring derived standard-like models. Possible corrections due to the supersymmetric mass spectrum are studied as well as the minimization of the supersymmetric Higgs potential. It is demonstrated that the calculated values of the Higgs VEV ratio, $tan\beta=v_1/v_2$, can be compatible with the minimization of the one-loop effective Higgs potential.
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