English

Circle compactification and 't Hooft anomaly

High Energy Physics - Theory 2018-04-10 v2 Strongly Correlated Electrons High Energy Physics - Lattice Nuclear Theory

Abstract

Anomaly matching constrains low-energy physics of strongly-coupled field theories, but it is not useful at finite temperature due to contamination from high-energy states. The known exception is an 't Hooft anomaly involving one-form symmetries as in pure SU(N)SU(N) Yang-Mills theory at θ=π\theta=\pi. Recent development about large-NN volume independence, however, gives us a circumstantial evidence that 't Hooft anomalies can also remain under circle compactifications in some theories without one-form symmetries. We develop a systematic procedure for deriving an 't Hooft anomaly of the circle-compactified theory starting from the anomaly of the original uncompactified theory without one-form symmetries, where the twisted boundary condition for the compactified direction plays a pivotal role. As an application, we consider ZN\mathbb{Z}_N-twisted CPN1\mathbb{C}P^{N-1} sigma model and massless ZN\mathbb{Z}_N-QCD, and compute their anomalies explicitly.

Keywords

Cite

@article{arxiv.1710.08923,
  title  = {Circle compactification and 't Hooft anomaly},
  author = {Yuya Tanizaki and Tatsuhiro Misumi and Norisuke Sakai},
  journal= {arXiv preprint arXiv:1710.08923},
  year   = {2018}
}

Comments

22 pages; (v2) references updated, minor changes

R2 v1 2026-06-22T22:24:29.603Z