English

Partially Massless Higher-Spin Theory II: One-Loop Effective Actions

High Energy Physics - Theory 2017-04-20 v2

Abstract

We continue our study of a generalization of the D-dimensional linearized Vasiliev higher-spin equations to include a tower of partially massless (PM) fields. We compute one-loop effective actions by evaluating zeta functions for both the "minimal" and "non-minimal" parity-even versions of the theory. Specifically, we compute the log-divergent part of the effective action in odd-dimensional Euclidean AdS spaces for D=7 through 19 (dual to the a-type conformal anomaly of the dual boundary theory), and the finite part of the effective action in even-dimensional Euclidean AdS spaces for D=4 through 8 (dual to the free energy on a sphere of the dual boundary theory). We pay special attention to the case D=4, where module mixings occur in the dual field theory and subtlety arises in the one-loop computation. The results provide evidence that the theory is UV complete and one-loop exact, and we conjecture and provide evidence for a map between the inverse Newton's constant of the partially massless higher-spin theory and the number of colors in the dual CFT.

Keywords

Cite

@article{arxiv.1610.08522,
  title  = {Partially Massless Higher-Spin Theory II: One-Loop Effective Actions},
  author = {Christopher Brust and Kurt Hinterbichler},
  journal= {arXiv preprint arXiv:1610.08522},
  year   = {2017}
}

Comments

36 pages. v2 clarifications, corrections and refs, version appearing in JHEP

R2 v1 2026-06-22T16:33:08.418Z