Top quark effects on the scalar sector of the minimal standard model

Cvetic, G

Abstract

We study effects of the heavy top quark (mt≈180GeV) on the scalar sector of the minimal Standard Model. We construct the effective potential for the scalar doublet, by first taking into account the leading contributions of the top quark loops. Minimizing this potential gives us a condition analogous to the leading-Nc gap equation of the standard t¯t-condensation model (Top-mode standard model). This essentially nonperturbative condition leads to a low ultraviolet cutoff L = O(1 TeV) in the case when the bare mass μ of the scalar doublet in the tree level potential satisfies μ^2=−M0^2≤0 and the scalar doublet there is selfinteracting (λ>0). We demand that the scalar selfinteraction behave perturbatively -- in the sense that its 1-loop contributions influence the effective poten- tial distinctly less than those of the Yukawa coupling of the heavy top quark. When we subsequently include the 1-loop contributions of the scalar and the gauge bosonic sectors in a perturbative manner, the results change numerically, but the cutoff L remains O(1TeV). The resulting Higgs mass MH is then in the range 150-250 GeV. Furthermore, the results of the paper survive even in the case when the square of the bare mass μ2 is positive, as long as μ^2≤O(λ v^2), where λ/4! is the usual bare coupling parameter of the quartic selfinteraction of the scalars and v is the vacuum expectation value (v=246.2 GeV, MH^2≈λv2/3).

Más información

Título de la Revista: Reviews of Modern Physics
Volumen: 11
Número: 30
Editorial: APS
Fecha de publicación: 1996
Página de inicio: 5405
Página final: 5428
Idioma: English
Notas: INSPIRE-HEP