Abstract
We determine the MS¯¯¯¯¯ charm quark mass from a charmonium QCD sum rules analysis. On the theoretical side we use input from perturbation theory at O(α3s) . Improvements with respect to previous O(α3s) analyses include (1) an account of all available e + e −
hadronic cross section data and (2) a thorough analysis of perturbative
uncertainties. Using a data clustering method to combine hadronic cross
section data sets from different measurements we demonstrate that using
all available experimental data up to c.m. energies of 10.538
GeV allows for determinations of experimental moments and their
correlations with small errors and that there is no need to rely on
theoretical input above the charmonium resonances. We also show that
good convergence properties of the perturbative series for the
theoretical sum rule moments need to be considered with some care when
extracting the charm mass and demonstrate how to set up a suitable set
of scale variations to obtain a proper estimate of the perturbative
uncertainty. As the final outcome of our analysis we obtain m¯¯¯c(m¯¯¯c)=1.282±(0.006)stat±(0.009)syst±(0.019)pert±(0.010)αs±(0.002)⟨GG⟩GeV . The perturbative error is an order of magnitude larger than the one obtained in previous O(α3s) sum rule analyses.
Original language | English |
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Article number | 103 |
Number of pages | 56 |
Journal | Journal of High Energy Physics |
Volume | 2013 |
Issue number | 9 |
DOIs | |
Publication status | Published - 20 Sept 2013 |
Austrian Fields of Science 2012
- 103012 High energy physics
Keywords
- Sum Rules
- QCD
- QUARK VACUUM POLARIZATION
- DEEP-INELASTIC SCATTERING
- TOTAL CROSS-SECTION
- QUANTUM-CHROMODYNAMIC CORRECTIONS
- E&E-ANNIHILATION
- E(+)E(-) ANNIHILATION
- PERTURBATIVE QCD
- HEAVY QUARKS
- TAU-DECAY
- ANALYTIC CALCULATION