Taste symmetry breaking with HYP-smeared staggered fermions

Abstract

We study the impact of hypercubic (HYP) smearing on the size of taste breaking for staggered fermions, comparing to unimproved and to asqtad-improved staggered fermions. As in previous studies, we find a substantial reduction in taste-breaking compared to unimproved staggered fermions (by a factor of 4-7 on lattices with spacing a≈ 0.1 fm). In addition, we observe that discretization effects of next-to-leading order in the chiral expansion ( O(a2 p2)) are markedly reduced by HYP smearing. Compared to asqtad valence fermions, we find that taste-breaking in the pion spectrum is reduced by a factor of 2.5-3, down to a level comparable to the expected size of generic O(a2) effects. Our results suggest that, once one reaches a lattice spacing of a≈ 0.09 fm, taste-breaking will be small enough after HYP smearing that one can use a modified power counting in which O(a2) O(p2), simplify fitting to phenomenologically interesting quantities.