2020年2月28日

# Infrared renormalon in the supersymmetric ℂPN-1 model on ℝ × S1

Progress of Theoretical and Experimental Physics
• Kosuke Ishikawa
• ,
• Okuto Morikawa
• ,
• Akira Nakayama
• ,
• Kazuya Shibata
• ,
• Hiroshi Suzuki
• ,
• Hiromasa Takaura

2020
2

DOI
10.1093/ptep/ptaa002

© 2020 The Author(s). In the leading order of the large-N approximation, we study the renormalon ambiguity in the gluon (or, more appropriately, photon) condensate in the 2D supersymmetric ℂPN-1 model on ℝ × S1 with the ℤN twisted boundary conditions. In our large-N limit, the combination ΛR, where Λ is the dynamical scale and R is the S1 radius, is kept fixed (we set ΛR ≪ 1 so that the perturbative expansion with respect to the coupling constant at the mass scale 1/R is meaningful). We extract the perturbative part from the large-N expression of the gluon condensate and obtain the corresponding Borel transform B(u). For ℝ × S1, we find that the Borel singularity at u = 2, which exists in the system on the uncompactified ℝ2 and corresponds to twice the minimal bion action, disappears. Instead, an unfamiliar renormalon singularity emerges at u = 3/2 for the compactified space ℝ × S1. The semi-classical interpretation of this peculiar singularity is not clear because u = 3/2 is not dividable by the minimal bion action. It appears that our observation for the system on ℝ × S1 prompts reconsideration on the semi-classical bion picture of the infrared renormalon.

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DOI
https://doi.org/10.1093/ptep/ptaa002
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