Finite-volume correction on the hadronic vacuum polarization contribution to muon g-2 in lattice QCD

Abstract

We study the finite-volume correction on the hadronic vacuum polarization contribution to the muon g-2 (aμ hvp) in lattice QCD at (near) physical pion mass using two different volumes: (5.4~ fm)4 and (8.1~ fm)4. We use an optimized AMA technique for noise reduction on Nf=2+1 PACS gauge configurations with stout-smeared clover-Wilson fermion action and Iwasaki gauge action at a single lattice cut-off a-1=2.33 GeV. The calculation is performed for the quark-connected light-quark contribution in the isospin symmetric limit. We take into account the effects of backward state propagation by extending a temporal boundary condition. In addition we study a quark-mass correction to tune to the exactly same physical pion mass on different volume and compare those correction with chiral perturbation. We find 10(26)×10-10 difference for light quark aμ hvp between (5.4~ fm)4 and (8.1~ fm)4 lattice in 146 MeV pion.