Hadronic vacuum polarization in the muon g-2: The short-distance contribution from lattice QCD

Abstract

We present results for the short-distance window observable of the hadronic vacuum polarization contribution to the muon g-2, computed via the time-momentum representation (TMR) in lattice QCD. A key novelty of our calculation is the reduction of discretization effects by a suitable subtraction applied to the TMR kernel function, which cancels the leading x04-behaviour at short distances. To compensate for the subtraction, one must substitute a term that can be reliably computed in perturbative QCD. We apply this strategy to our data for the vector current collected on ensembles generated with 2+1 flavours of O(a)-improved Wilson quarks at six values of the lattice spacing and pion masses in the range 130-420\,MeV. Our estimate at the physical point contains a full error budget and reads (aμ hvp) SD=68.85(14) stat\,(42) syst·10-10, which corresponds to a relative precision of 0.7\%. We discuss the implications of our result for the observed tensions between lattice and data-driven evaluations of the hadronic vacuum polarization.