Shaun Lahert, Carleton DeTar, Aida X. El-Khadra, Steven Gottlieb, Andreas S. Kronfeld, Ruth S. Van de Water
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The two-pion contribution to the hadronic vacuum polarization with staggered quarks
We present results from the first lattice QCD calculation of the two-pion
contributions to the light-quark connected vector-current correlation function
obtained from staggered-quark operators. We employ the MILC collaboration's
gauge-field ensemble with $2+1+1$ flavors of highly improved staggered sea
quarks at a lattice spacing of $a\approx 0.15$ fm with a light sea-quark mass
at its physical value. The two-pion contributions allow for a refined
determination of the noisy long-distance tail of the vector-current correlation
function, which we use to compute the light-quark connected contribution to HVP
with improved statistical precision. We compare our results with traditional
noise-reduction techniques used in lattice QCD calculations of the light-quark
connected HVP, namely the so-called fit and bounding methods. We observe a
factor of roughly three improvement in the statistical precision in the
determination of the HVP contribution to the muon's anomalous magnetic moment
over these approaches. We also lay the group theoretical groundwork for
extending this calculation to finer lattice spacings with increased numbers of
staggered two-pion taste states.
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