The ABC of Higher-Spin AdS/CFT

TL;DR

This paper extends one-loop tests of higher-spin AdS/CFT dualities to various theories in dimensions greater than two, analyzing their spectra, free energies, and potential bulk coupling constant shifts, revealing new insights and some mismatches.

Contribution

It introduces new classes of higher-spin theories (Type B, AB, C) in higher dimensions and analyzes their dual CFTs, including spectrum projections and free energy computations.

Findings

Free energies often vanish or match single-field free energies.

Bulk coupling shifts are identified for most theories.

Mismatches occur in odd dimensions for certain theories.

Abstract

In recent literature one-loop tests of the higher-spin AdS$_{d+1}$/CFT$_d$ correspondences were carried out. Here we extend these results to a more general set of theories in $d>2$. First, we consider the Type B higher spin theories, which have been conjectured to be dual to CFTs consisting of the singlet sector of $N$ free fermion fields. In addition to the case of $N$ Dirac fermions, we carefully study the projections to Weyl, Majorana, symplectic, and Majorana-Weyl fermions in the dimensions where they exist. Second, we explore theories involving elements of both Type A and Type B theories, which we call Type AB. Their spectrum includes fields of every half-integer spin, and they are expected to be related to the $U(N)/O(N)$ singlet sector of the CFT of $N$ free complex/real scalar and fermionic fields. Finally, we explore the Type C theories, which have been conjectured to be dual to the CFTs of $p$-form gauge fields, where $p=\frac d 2 -1$. In most cases we find that the free energies at $O(N^0)$ either vanish or give contributions proportional to the free-energy of a single free field in the conjectured dual CFT. Interpreting these non-vanishing values as shifts of the bulk coupling constant $G_N\sim 1/(N-k)$, we find the values $k=-1, -1/2, 0, 1/2, 1, 2$. Exceptions to this rule are the Type B and AB theories in odd $d$; for them we find a mismatch between the bulk and boundary free energies that has a simple structure, but does not follow from a simple shift of the bulk coupling constant.