Charmed meson masses and decay constants in the continuum from the tadpole improved clover ensembles

arXiv - PHYS - High Energy Physics - Lattice Pub Date : 2024-08-07 DOI:arxiv-2408.03548

Hai-Yang Du, Bolun Hu, Ying Chen, Heng-Tong Ding, Chuan Liu, Liuming Liu, Yu Meng, Peng Sun, Ji-Hao Wang, Yi-Bo Yang, Dian-Jun Zhao

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Abstract

We present the determination of the charm quark mass, the masses and decay constants of charmed mesons using thirteen 2+1 flavor full-QCD gauge ensembles at five different lattice spacings $a\in[0.05,0.11]$ fm, 8 pion masses $m_{\pi}\in(130,360)$ MeV, and several values of the strange quark mass, which facilitate us to do the chiral and continuum extrapolation. These ensembles are generated through the stout smeared clover fermion action and Symanzik gauge actions with the tadpole improvement. Using QED-subtracted $D_s$ meson mass and non-perturbative renormalization, we predict the charm quark mass in the continuum with physical light and strange quark masses to be {$m_c(m_c)=1.289(17)$} GeV in $\overline{\textrm{MS}}$ scheme, with the systematic uncertainties from lattice spacing determination, renormalization constant, {and fit ansatz} included. Predictions of the open and close charm mesons using this charm quark mass agree with the experimental value at 0.3\% level uncertainty. We obtained {$D_{(s)}$ decay constants and also by far the most precise $D_{(s)}^*$ decay constants $f_{D^*}=0.2321(43)$ GeV and $f_{D^*_s}=0.2743(34)$ GeV}, with the charm quark improved vector current normalization.

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从蝌蚪改进三叶草集合看连续相中的魅力介子质量和衰变常数

我们利用13个2+1味全QCD量规集合，在5个不同的晶格间隔$a\in[0.05,0.11]$ fm，8个先驱质量$m_{pi}\in(130,360)$ MeV，以及奇异夸克质量的几个值，测定了粲夸克的质量、粲介子的质量和衰变常数，这有助于我们进行手性和连续体外推。这些集合是通过蝌蚪改进的粗大抹黑三叶草费米子作用和塞曼齐克规量作用生成的。利用QED减去的$D_s$介子质量和非微扰重正化，我们预测连续相中的粲夸克质量与物理轻夸克和奇异夸克质量为{$m_c(m_c)=1.289(17)$}。在$overline\{textrm{MS}}$方案中，我们预测粲夸克质量为{$m_c(m_c=1.289(17)$}，其中包含了晶格间距确定、重正化常数{和拟合等式}带来的系统不确定性。利用这种粲夸克质量对开场和闭场粲子的预测与实验值一致，不确定性为0.3%。我们得到了{$D_{(s)}$衰变常数，以及迄今为止最精确的$D_{(s)}^*$衰变常数$f_{D^*}=0.2321(43)$ GeV和$f_{D^*_s}=0.2743(34)$ GeV}，并对粲夸克进行了改进的矢量电流归一化。

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arXiv - PHYS - High Energy Physics - Lattice

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