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Frequency-splitting estimators for single-propagator traces

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arxiv 2001.08783 v1 pith:DBEWA3AW submitted 2020-01-23 hep-lat

Frequency-splitting estimators for single-propagator traces

classification hep-lat
keywords estimatorscomputationdiagramssingle-propagatortracesvacuumvariancesaddress
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In these proceedings we address the computation of quark-line disconnected diagrams in lattice QCD. The evaluation of these diagrams is required for many phenomenologically interesting observables, but suffers from large statistical errors due to the vacuum and random-noise contributions to their variances. Motivated by a theoretical analysis of the variances, we introduce a new family of stochastic estimators of single-propagator traces built upon a frequency splitting combined with a hopping expansion of the quark propagator, and test their efficiency in two-flavour QCD with pions as light as 190 MeV. The use of these estimators reduces the cost of the computation by one to two orders of magnitude over standard estimators depending on the fermion bilinear. As a concrete application, we show the impact of these findings on the computation of the hadronic vacuum polarization contribution to the muon anomalous magnetic moment.

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