On the ultraviolet behavior of the invariant charge in quantum electrodynamics
Abstract
In this paper we study the ultraviolet behavior of the invariant charge in QED. We show that for complex momenta the invariant charge does not have Landau pole singularity. We can define new invariant charge as real part of standard invariant charge. New invariant charge is limited from above and does not have Landau pole singularity. Also we use the 1/N perturbation theory for the investigation of the ultraviolet behavior of the invariant charge. To this aim we consider QED with imaginary charge which is asymptotically free but nonphysical model. In QED with nonphysical imaginary charge we can reliably calculate the ultraviolet asymptotics for the (1/N)k correction to the invariant charge, namely: αk(p2μ2, α) ((p2μ2))-k-1 at k > 1 and α1(p2μ2, α) (((p2μ2)2(p2μ2)) at k =1. The 1/N perturbation theory coincides for QED with imaginary charge and standard QED with real charge. It means in particular that ultraviolet behavior of the (1/N)k correction αk(p2μ2, α) in real QED coincides with the corresponding asymptotics for QED with imaginary charge. We propose also to use the modified 1/N expansion which is ultraviolet finite. The comparison of the standard QED and nonphysical QED with imaginary charge gives hint that in other non asymptotically free models like supersymmetric QED, scalar QED or Wess-Zumino model ultraviolet asymptotics of the invariant charge coincides with leading log approximtion.
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