More on the infrared renormalon in SU(N) QCD(adj.) on R3× S1

Abstract

We present additional observations to previous studies on the infrared (IR) renormalon in SU(N) QCD(adj.), the SU(N) gauge theory with nW-flavor adjoint Weyl fermions on~R3× S1 with the ZN twisted boundary condition. First, we show that, for arbitrary finite~N, a logarithmic factor in the vacuum polarization of the "photon" (the gauge boson associated with the Cartan generators of~SU(N)) disappears under the S1~compactification. Since the IR renormalon is attributed to the presence of this logarithmic factor, it is concluded that there is no IR renormalon in this system with finite~N. This result generalizes the observation made by Anber and~Sulejmanpasic [J. High Energy Phys.\ 1501, 139 (2015)] for N=2 and~3 to arbitrary finite~N. Next, we point out that, although renormalon ambiguities do not appear through the Borel procedure in this system, an ambiguity appears in an alternative resummation procedure in which a resummed quantity is given by a momentum integration where the inverse of the vacuum polarization is included as the integrand. Such an ambiguity is caused by a simple zero at non-zero momentum of the vacuum polarization. Under the decompactification~R∞, where R is the radius of the S1, this ambiguity in the momentum integration smoothly reduces to the IR renormalon ambiguity in~R4. We term this ambiguity in the momentum integration "renormalon precursor". The emergence of the IR renormalon ambiguity in~R4 under the decompactification can be naturally understood with this notion.