Infrared renormalon in SU(N) QCD(adj.) on R3× S1

Abstract

We study the infrared renormalon in the gluon condensate in the SU(N) gauge theory with nW-flavor adjoint Weyl fermions (QCD(adj.)) on~R3× S1 with the ZN twisted boundary conditions. We rely on the so-called large-β0 approximation as a conventional tool to analyze the renormalon, in which only Feynman diagrams that dominate in the large-nW limit are considered while the coefficient of the vacuum polarization is set by hand to the one-loop beta function~β0=11/3-2nW/3. In the large~N limit within the large-β0 approximation, the W-boson, which acquires the twisted Kaluza--Klein momentum, produces the renormalon ambiguity corresponding to the Borel singularity at~u=2. This provides an example that the system in the compactified space~R3× S1 possesses the renormalon ambiguity identical to that in the uncompactified space~R4. We also discuss the subtle issue that the location of the Borel singularity can change depending on the order of two necessary operations.