QCD Improved b sγ Constraints on the Minimal Supergravity Model
Abstract
Recent advances in the QCD corrections to b sγ decay in the MSSM include i.) evaluation of the relevant operators, Wilson coefficients and anomalous dimension matrix elements for the various MSSM effective theories valid at scales beyond Q =MW, ii.) calculations of most of the needed anomalous dimension matrix elements to next-to-leading order for scales mb Q <MW, and iii.) calculations of O(αs) virtual and bremsstrahlung corrections to the b sγ decay operators at scale Q mb. We assemble all these known results to gain an estimate of B(b sγ ) for the parameter space of the minimal supergravity model (mSUGRA). We find a much reduced scale dependence of our result compared to usual leading-log evaluations. Comparison with the latest CLEO results yields stringent constraints on parameter space. Much of mSUGRA parameter space is ruled out for μ <0, especially for large tanβ. We compare these results with other constraints from cosmology and non-standard vacua. Also, we compare with expectations for discovering mSUGRA at LEP2, the Tevatron and the CERN LHC.
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