The b quark low-scale running mass from Upsilon sum rules
Abstract
The b quark low-scale running mass mkin is determined from an analysis of the Upsilon sum rules in the next-to-next-to-leading order (NNLO). It is demonstrated that using this mass one can significantly improve the convergence of the perturbation series for the spectral density moments. We obtain mkin(1 GeV) = 4.56 0.06 GeV. Using this result we derive the value of the MS-bar mass m: m(m) = 4.20 0.1 GeV. Contrary to the low-scale running mass, the pole mass of the b quark cannot be reliably determined from the sum rules. As a byproduct of our study we find the NNLO analytical expression for the cross section e+e- --> Q Q of the quark antiquark pair production in the threshold region, as well as the energy levels and the wave functions at the origin for the 1S3 bound states of Q Q.
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