New Precision Electroweak Tests of SU(5) x U(1) Supergravity

Abstract

We explore the one-loop electroweak radiative corrections in SU(5)× U(1) supergravity via explicit calculation of vacuum-polarization and vertex-correction contributions to the ε1 and εb parameters. Experimentally, these parameters are obtained from a global fit to the set of observables l, b, AlFB, and MW/MZ. We include q2-dependent effects, which induce a large systematic negative shift on ε1 for light chargino masses (m_170). The (non-oblique) supersymmetric vertex corrections to , which define the εb parameter, show a significant positive shift for light chargino masses, which for β≈2 can be nearly compensated by a negative shift from the charged Higgs contribution. We conclude that at the 90\%CL, for mt160 the present experimental values of ε1 and εb do not constrain in any way SU(5)× U(1) supergravity in both no-scale and dilaton scenarios. On the other hand, for mt160 the constraints on the parameter space become increasingly stricter. We demonstrate this trend with a study of the mt=170 case, where only a small region of parameter space, with β4, remains allowed and corresponds to light chargino masses (m_170). Thus SU(5)× U(1) supergravity combined with high-precision LEP data would suggest the presence of light charginos if the top quark is not detected at the Tevatron.

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