Error Scaling of Sea Quark Isospin-Breaking Effects

Abstract

Sea-quark isospin-breaking effects (IBE) are difficult to compute since they require the evaluation of all-to-all propagators. However, the quest for high-precision calculations motivates a detailed study of these contributions. There are strong arguments that the stochastic error associated with these quantities should diverge in the continuum and infinite-volume limit, resulting in a possible bottleneck for the method. In this work, we present the study of the error scaling for these quantities using Nf=3 O(a)-improved Wilson fermions QCD with C-periodic boundary conditions in space, a pion mass Mπ=400 MeV, a range of lattice spacings a=0.05, 0.075, 0.1 fm, and volumes L=1.6, 2.4, 3.2 fm. The analysis of the error as a function of the number of stochastic sources shows that we reach the gauge error for the dominant contributions. The errors do not show the leading order divergence 1/a for strong-IBE and 1/a2 for electromagnetic IBE, in the considered range of lattice spacings. On the other hand, our data are consistent with the predicted leading divergence V.

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