Conformal Mapping, Power Corrections, and the QCD Bound State Spectrum

Abstract

We analyze the heavy quark bound state spectrum using an order-dependent conformal mapping to re-sum the perturbative expansion for current correlators. The procedure consists of two main steps. Firstly, the Borel plane structure of the truncated perturbative expression is modified to ensure consistency with the operator product expansion. This is analogous to a resummation of infrared renormalon chains. Secondly, this perturbative expansion is conformally mapped to a new series with improved convergence properties. This approach may be shown to induce power corrections consistent with existing condensates, and the resulting expansion may be ordered in powers of an infrared-analytic effective coupling. The technique is then applied to cc and bb sum rules without any explicit introduction of vacuum condensate parameters. Ground state masses for the vector, axial--vector, and A' channels are well reproduced, while results for the scalar--pseudoscalar mass splitting are less impressive.

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