English

Exploring Confinement in Anti-de Sitter Space

High Energy Physics - Theory 2025-06-06 v4

Abstract

We study Yang-Mills theory on four dimensional Anti-de Sitter space. The Dirichlet boundary condition cannot exist at arbitrarily large radius because it would give rise to colored asymptotic states in flat space. As observed in [1] this implies a deconfinement-confinement transition as the radius is increased. We gather hints on the nature of this transition using perturbation theory. We compute the anomalous dimensions of the lightest scalar operators in the boundary theory, finding that the singlet gets a larger negative anomalous dimension compared to the adjoint. We also compute the correction to the coefficient CJC_J and we estimate that the singlet operator reaches marginality before the value of the coupling at which CJ=0C_J=0. These results favor the scenario of merger and annihilation as the most promising candidate for the transition. For the Neumann boundary condition, the lightest scalar operator is found to have a positive anomalous dimension, in agreement with the idea that this boundary condition extrapolates smoothly to flat space. The perturbative calculations are made possible by a drastic simplification of the gauge field propagator in Fried-Yennie gauge. We also derive a general result for the leading-order anomalous dimension of the displacement operator for a generic perturbation in Anti-de Sitter, showing that it is related to the beta function of bulk couplings.

Keywords

Cite

@article{arxiv.2407.06268,
  title  = {Exploring Confinement in Anti-de Sitter Space},
  author = {Riccardo Ciccone and Fabiana De Cesare and Lorenzo Di Pietro and Marco Serone},
  journal= {arXiv preprint arXiv:2407.06268},
  year   = {2025}
}

Comments

v4: fixed a few typos

R2 v1 2026-06-28T17:33:24.198Z