Resolving Charged Hadrons in QED -- Gauge Invariant Interpolating Operators

Abstract

Standard interpolating operators for charged mesons, e.g. JB = b i γ5 u for B-, are not gauge invariant in QED and therefore problematic for perturbative methods. We propose a gauge invariant interpolating operator by adding an auxiliary charged scalar B, JB(0) = JB \, B, which reproduces all the universal soft and collinear logs. The modified LSZ-factor is shown to be infrared finite which is a necessary condition for validating the approach. At O(α), this is equivalent to a specific Dirac dressing of charged operators. A generalisation thereof, using iterated integrals, establishes the equivalence to all orders and provides a transparent alternative viewpoint. The method is discussed by the example of the leptonic decay B- - for which a numerical study is to follow. The formalism itself is valid for any spin, flavour and set of final states (e.g. B- π0 - ).