New constraints on supergravity models from b sγ

Abstract

We perform a detailed study of the constraints from b sγ on a large class of supergravity models, including generic four-parameter supergravity models, the minimal SU(5) supergravity model, and SU(5)× U(1) supergravity. For each point in the parameter spaces of these models we obtain a range of B(b sγ) values which should conservatively account for the unknown next-to-leading-order QCD corrections. We then classify these points into three categories: ``excluded" points have ranges of B(b sγ) which do not overlap with the experimentally allowed range, ``preferred" points have B(b sγ) ranges which overlap with the Standard Model prediction, and ``Ok" points are neither ``excluded" nor ``preferred" but may become ``excluded" should new CLEO data be consistent with the Standard Model prediction. In all cases we observe a strong tendency for the ``preferred" points towards one sign of the Higgs mixing parameter μ. For the opposite sign of μ there is an upper bound on β: β25 in general, and β6 for the ``preferred" points. We conclude that new CLEO data will provide a decisive test of supergravity models.

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