PT Journal
AU Hoang, AH
   Ruiz-Femenia, P
   Stahlhofen, M
TI Renormalization group improved bottom mass from (gamma) sum rules at NNLL order
SO Journal of High Energy Physics
JI J. High Energy Phys.
PY 2012
BP 188
EP 30pp
VL 10
IS 10
DI 10.1007/JHEP10(2012)188
LA English
DE Heavy Quark Physics; Sum Rules; QCD
AB We determine the bottom quark mass from non-relativistic large-n gamma sum rules with renormalization group improvement at next-to-next-to-leading logarithmic order. We compute the theoretical moments within the vNRQCD formalism and account for the summation of powers of the Coulomb singularities as well as of logarithmic terms proportional to powers of alpha(s) ln(n). The renormalization group improvement leads to a substantial stabilization of the theoretical moments compared to previous fixed-order analyses, which did not account for the systematic treatment of the logarithmic alpha(s) ln(n) terms, and allows for reliable single moment fits. For the current world average of the strong coupling (alpha(s) (M-Z) = 0.1183 +/- 0.0010) we obtain M-b(1S) = 4.755 +/- 0.057(pert) +/- 0.009 alpha(s) +/- 0.003(exp) GeV for the bottom 1S mass and (m) over bar (b) ((m) over bar (b)) = 4.235 +/- 0.055(pert) +/- 0.003(exp) GeV for the bottom (MS) over bar mass, where we have quoted the perturbative error and the uncertainties from the strong coupling and the experimental data.
ER