English

Multiplet Recombination and the CFT Distance Conjecture

High Energy Physics - Theory 2026-03-04 v1

Abstract

Motivated by quantum gravity and the CFT Distance Conjecture, we study infinite-distance limits in four-dimensional N=2{\cal N}=2 superconformal field theories with higher-dimensional conformal manifolds and their AdS duals. We focus on partial decoupling limits where a gauge sector becomes weakly coupled while an interacting sector persists. We analyse the structure of towers of states emerging in these limits. The weakly coupled sector contributes, among others, the massless higher-spin tower predicted by the CFT Distance Conjecture exhibiting polynomial degeneracy. The key novelty is the appearance of a protected BPS tower in the interacting sector, characterised by exponential degeneracy and masses at the AdS scale. This structure follows from multiplet recombination in the N=2{\cal N}=2 superconformal algebra: As unprotected long multiplets hit the unitarity bound at weak coupling, they recombine into protected short multiplets. We verify this picture through an explicit one-loop computation in the simplest two-node quiver gauge theory with a two-dimensional conformal manifold.

Keywords

Cite

@article{arxiv.2603.02304,
  title  = {Multiplet Recombination and the CFT Distance Conjecture},
  author = {Fabio Mantegazza and Enrico Marchetto and Elli Pomoni and Torben Skrzypek and Timo Weigand},
  journal= {arXiv preprint arXiv:2603.02304},
  year   = {2026}
}

Comments

38 pages + appendices, 15 figures, ancillary Mathematica notebook

R2 v1 2026-07-01T10:59:54.409Z