Axion Wormholes and the AdS/CFT Factorization Problem
Abstract
This work investigates the relevance of Euclidean and complex axion wormholes to the AdS/CFT factorization problem. We use a framework that defines bulk gravitational path integrals by integrating over a real Lorentz-signature contour and then, as needed, perhaps further analytically continuing the resulting functions of boundary conditions. For technical reasons we focus on the case of 2+1 bulk dimensions. The AdS boundary conditions (in any dimension) require us to impose Dirichlet boundary conditions on the standard Euclidean axion . Fixing its asymptotic values on two boundary spheres to , we find such wormholes to be subdominant to a UV-sensitive endpoint contribution for near the real axis, and that (with our conventions) they become dominant only for near the negative imgainary axis. Furthermore, such wormholes are irrelevant to our computation for (in the sense that the associated ascent contour fails to intersect the contour of integration). The relevance of the wormhole saddle for real positive is in fact a matter of choice, as the saddle then lies on a Stokes' line at which the relevant intersection number changes from zero to one.
Cite
@article{arxiv.2601.02507,
title = {Axion Wormholes and the AdS/CFT Factorization Problem},
author = {Jesse Held and Molly Kaplan and Donald Marolf and Zhencheng Wang},
journal= {arXiv preprint arXiv:2601.02507},
year = {2026}
}
Comments
36 pages + appendices