Setting the scale for nHYP fermions with the Lüscher-Weisz gauge action

H. Niyazi, A. Alexandru, F. Lee, R. Brett
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引用次数: 3

Abstract

Lattice QCD calculations using gauge smearing for fermion kernels are computationally efficient. Hypercubic blocking (nHYP smearing) has been shown to reduce scaling errors. In this work we use an improved action for $N_f=2$ QCD, based on the Luscher-Weisz gauge action and clover-improved Wilson fermions with nHYP smeared gauge links. We perform a parameter scan in the region with lattice spacing between $0.066 \mathop{\hbox{fm}}$ and $0.115 \mathop{\hbox{fm}}$ and pion mass between $207 \mathop{\hbox{MeV}}$ and $834 \mathop{\hbox{MeV}}$. We determine the lattice spacing and pion mass as a function of the bare coupling parameters ($\beta$ and $\kappa$). The results are obtained from twenty-two ensembles on a $24^3\times 48$ lattice to percent level in statistical accuracy. The finite-volume effects for these ensemble are at the sub-percent level. From these measurements we produce easy-to-use parameterizations to help tune simulations with this action. The lattice spacing is fixed using a mass-independent procedure, by matching observables in the chiral limit. We also provide a parameterization for the chiral extrapolation which is universal and should hold for all discretizations of $N_f=2$ QCD.
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设置具有舍-魏兹规范作用的nHYP费米子的尺度
对费米子核使用规范涂抹的点阵QCD计算是计算效率高的。超立方块(nHYP涂抹)已被证明可以减少缩放误差。在这项工作中,我们使用了一个改进的作用$N_f=2$ QCD,基于Luscher-Weisz规范作用和三叶草改进的威尔逊费米子与nHYP涂抹规范链接。我们对晶格间距在$0.066 \mathop{\hbox{fm}}$和$0.115 \mathop{\hbox{fm}}$之间,介子质量在$207 \mathop{\hbox{MeV}}$和$834 \mathop{\hbox{MeV}}$之间的区域进行了参数扫描。我们确定了晶格间距和介子质量作为裸耦合参数的函数($\beta$和$\kappa$)。结果从$24^3\times 48$晶格上的22个集合中获得,统计精度达到百分比水平。这些系综的有限体积效应处于次百分比水平。从这些测量中,我们产生易于使用的参数化,以帮助调整模拟与此操作。通过匹配手性极限的观测值,采用与质量无关的方法确定晶格间距。我们还提供了手性外推的参数化,这是通用的,应该适用于$N_f=2$ QCD的所有离散化。
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