Renormalization Group Improved Sum Rule Analysis for the Bottom Quark Mass
Abstract
We study the effect of resumming large logarithms in the determination of the bottom quark mass through a non-relativistic sum rule analysis. Our result is complete at next-to-leading-logarithmic accuracy and includes some known contributions at next-to-next-to-leading logarithmic accuracy. Compared to finite order computations, the reliability of the theoretical evaluation is greatly improved, resulting in a substantially reduced scale dependence and a faster convergent perturbative series. This allows us to significantly improve over previous determinations of the bottom quark mass, mb, from non-relativistic sum rules. Our final figure reads mb(mb)=4.19 0.06 GeV.
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