Accurate bottom-quark mass from Borel QCD sum rules for $f_B$ and $f_{B_s}$
arXiv:1305.7099 · doi:10.1103/PhysRevD.88.056011
Abstract
We prove that Borel QCD sum rules for heavy-light currents yield very strong correlations between the $b$-quark mass $m_b$ and the $B$-meson decay constant $f_B$, namely, $δf_B/f_B\approx -8\,δm_b/m_b$. This fact opens the possibility of an accurate sum-rule extraction of $m_b$ by using $f_B$ as input. Combining precise lattice QCD determinations of $f_B$ with our sum-rule analysis based on the three-loop $O(α_s^2)$ heavy-light correlation function leads to $\bar{m}_b(\bar{m}_b)=(4.247\pm0.034)\;\mbox{GeV}$.
11 pages