Insight on confinement from the QCD effective charge
Abstract
Like the Gell-Mann--Low coupling α of QED, the effective charge αg1 is a physical, observable-defined running coupling that can serve as the QCD coupling αs. It can be represented by an analytic form consistent with renormalization-group evolution, light-front holographic QCD, and the world data on αs. As an observable, αg1 has a physically relevant analytic structure that reflects the underlying partonic dynamics. It displays, in the long-distance regime, two imaginary conjugate singularities at Q2= iΛs2, with Λs the QCD scale. To connect this structure to confinement, we use known relations between αs and the parton dressed propagators and vertices. Since, unlike vertices, propagators characterize a field variation between separate locations, the two singularities are assigned to the propagators. This results in the parton propagators displaying a long-distance behavior e-Λs|x|/2|x|-5/2+da where propagation is suppressed beyond distances of order 1/Λs, as expected from confinement. This offers an intuitive interpretation of confinement as the suppression of QCD Green's functions at long distance.
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