Accurate bottom-quark mass from Borel QCD sum rules for $f_B$ and   $f_{B_s}$

Wolfgang Lucha; Dmitri Melikhov; and Silvano Simula

arXiv:1305.7099·hep-ph·September 17, 2013

Accurate bottom-quark mass from Borel QCD sum rules for $f_B$ and $f_{B_s}$

Wolfgang Lucha, Dmitri Melikhov, and Silvano Simula

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TL;DR

This paper demonstrates that Borel QCD sum rules establish a strong correlation between the bottom-quark mass and the B-meson decay constant, enabling a precise determination of the bottom-quark mass by combining sum rules with lattice QCD data.

Contribution

It provides a novel method to accurately extract the bottom-quark mass using the correlation between $m_b$ and $f_B$ from Borel QCD sum rules and lattice QCD inputs.

Findings

01

Determined the bottom-quark mass as 4.247 GeV with 0.034 GeV uncertainty.

02

Established a strong correlation between $m_b$ and $f_B$ in sum rules.

03

Achieved a precise bottom-quark mass estimate by combining sum rules with lattice QCD.

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, $δ f_{B} / f_{B} \approx - 8 δ m_{b} / m_{b}$ . 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 $\overset{m}{ˉ}_{b} (\overset{m}{ˉ}_{b}) = (4.247 \pm 0.034) \mbox G e V$ .

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