Analytic calculation of two-loop QCD corrections to b s+- in the high q2 region

Abstract

We present our results for the NNLL virtual corrections to the matrix elements of the operators O1 and O2 for the inclusive process b s+- in the kinematical region q2>4mc2, where q2 is the invariant mass squared of the lepton-pair. This is the first analytic two-loop calculation of these matrix elements in the high q2 region. We give the matrix elements as an expansion in mc/mb and keep the full analytic dependence on q2. Making extensive use of differential equation techniques, we fully automatize the expanding of the Feynman integrals in mc/mb. In coincidence with an earlier work where the master integrals where calculated numerically (Ghinculov et al.) we find that in the high q2 region the αs corrections to the matrix elements <s + -|O1,2|b> calculated in the present paper lead to a decrease of the q2-spectrum by 10%-15% relative to the NNLL result in which these contributions are put to zero and reduce the renormalization scale uncertainty to ~2%.