Precision Electroweak Tests of the Minimal and Flipped SU(5) Supergravity Models
Abstract
We explore the one-loop electroweak radiative corrections in the minimal SU(5) and the no-scale flipped SU(5) supergravity models via explicit calculation of vacuum polarization contributions to the ε1,2,3 parameters. Experimentally, ε1,2,3 are obtained from a global fit to the LEP observables, and MW/MZ measurements. We include q2-dependent effects which have been neglected in most previous ``model-independent" analyses of this type. These effects induce a large systematic negative shift on ε1,2,3 for light chargino masses (m_170). In agreement with previous general arguments, we find that for increasingly large sparticle masses, the heavy sector of both models rapidly decouples, , the values for ε1,2,3 quickly asymptote to the Standard Model values with a light Higgs (mHSM100). Specifically, at present the 90\% CL upper limit on the top-quark mass is mt175 in the no-scale flipped SU(5) supergravity model. These bounds can be strengthened for increasing chargino masses in the 50-100 interval. In particular, for mt160, the Tevatron may be able to probe through gluino( g) and squark( q) production up to m g≈ m q≈250, exploring at least half of the parameter space in this model.
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