Investigation of the scale dependence in the MSR and MS top quark mass schemes for the tt invariant mass differential cross section using LHC data

Abstract

The computation of the single-differential top quark-antiquark pair (tt) production cross section at NLO in the fixed-order expansion is examined consistently using the MSR and MS short-distance top quark mass schemes. A thorough investigation of the dependence of different regions of the tt invariant mass spectrum on the renormalization scales R and μm of the MSR mass mtMSR(R) and MS mass mt(μm), respectively, is carried out. We demonstrate that a scale choice of R 80~GeV is important for the stability of the cross-section predictions for the low tt invariant mass range, which is important for a reliable extraction of the top quark mass. Furthermore, a choice of semi-dynamical renormalization and factorization scales is preferred. These findings are expected to remain valid once non-relativistic quasi-bound state effects are included in the low invariant mass region.