Revisiting the Bottom Quark Forward-Backward Asymmetry A FB in Electron-Positron Collisions

Abstract

The bottom quark forward-backward asymmetry AFB is a key observable in electron-positron collisions at the Z0 peak. In this paper, we employ the Principle of Maximum Conformality (PMC) to fix the αs-running behavior of the next-to-next-to-leading order QCD corrections to AFB. The resulting PMC scale for this AFB is an order of magnitude smaller than the conventional choice μr=MZ. This scale has the physically reasonable behavior and reflects the virtuality of its QCD dynamics, which is independent to the choice of renormalization scale. Our analyses show that the effective momentum flow for the bottom quark forward-backward asymmetry should be μr MZ other than the conventionally suggested μr=MZ. Moreover, the convergence of perturbative QCD series for AFB is greatly improved using the PMC. Our prediction for the bare bottom quark forward-backward asymmetry is refined to be A0,b FB=0.10040.0016, which diminishes the well known tension between the experimental determination for this (pseudo) observable and the respective Standard Model fit to 2.1σ.