Two-point function of strangeness-carrying vector-currents in two-loop Chiral Perturbation Theory
Abstract
We calculate the correlator between two external vector-currents having the quantum-numbers of a charged kaon. We give the renormalized expression to two loops in standard chiral perturbation theory in the isospin limit, which, as a physical result, is finite and scale-independent. Applications include a low energy theorem, valid at two loop order, of a flavor breaking combination of vector current correlators as well as a determination of the phenomenologically relevant finite O(p6)-counterterm combination QV by means of inverse moment finite energy sum rules. This determination is less sensitive to isospin-breaking effects than previous attempts.
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