Matching coefficients for alphas and mb to O(alphas2) in the MSSM

Abstract

We compute the exact two-loop matching coefficients for the strong coupling constant alphas and the bottom-quark mass mb within the Minimal Supersymmetric Standard Model (MSSM), taking into account O(alphas2) contributions from Supersymmetric Quantum Chromodynamics (SQCD). We find that the explicit mass pattern of the supersymmetric particles has a significant impact on the predictions of alphas and mb at high energies. Further on, the three-loop corrections exceed the uncertainty due to the current experimental accuracy. In case of the the running bottom-quark mass, they can reach in the large tan(beta) regime up to 30% of the tree-level value.