Charmed-meson spectroscopy in QCD sum rule
Abstract
We elaborate masses of open-charm mesons (cd and cs) with JP=0-,1-,0+,1+ from a viewpoint of ordinary light-heavy systems in the analysis of standard Borel-transformed QCD sum rule. This analysis is implemented with the operator product expansion up to dimension 6, permitting corrections to the order alphas and to the order ms, and without relying on 1/mc-expansion. The obtained results following our stringent criteria for the continuum-threshold dependence, the Borel window and the Borel stability, indicate that the charmed-meson masses in the 0+ channel are overestimated by 100 200 MeV in comparison with the experimental data, which were recently reported as the rather broad state of D*+(2351) and the extremely narrow state of Ds*+(2317), respectively. Such large mass-discrepancies from the data cannot be seen in other channels, where conversely our results of the cs-meson masses are even underestimated somewhat in comparison with data, independent of the value of the strange-quark mass adopted in our calculations. From these results, it might be expected that the measured low mass of Ds*+(2317) is a manifestation of an exotic state with the structures of a four-quark or a molecule, while at present the D*+ is not in conflict with the existing data due to its large width.
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