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Vacua, Propagators, and Holographic Probes in AdS/CFT

Ulf H. Danielsson, Esko Keski-Vakkuri, Martin Kruczenski

Abstract

In this paper we investigate the relation between the bulk and boundary in AdS/CFT. We first discuss the relation between the Poincare and the global vacua, and then study various probes of the bulk from the boundary theory point of view. We derive expressions for retarded propagators and note that objects in free fall look like expanding bubbles in the boundary theory. We also study several Yang-Mills theory examples where we investigate thermal screening and confinement using propagators. In the case of confinement we also calculate the profile of a flux tube and provide an alternative derivation of the tension.

Vacua, Propagators, and Holographic Probes in AdS/CFT

Abstract

In this paper we investigate the relation between the bulk and boundary in AdS/CFT. We first discuss the relation between the Poincare and the global vacua, and then study various probes of the bulk from the boundary theory point of view. We derive expressions for retarded propagators and note that objects in free fall look like expanding bubbles in the boundary theory. We also study several Yang-Mills theory examples where we investigate thermal screening and confinement using propagators. In the case of confinement we also calculate the profile of a flux tube and provide an alternative derivation of the tension.

Paper Structure

This paper contains 13 sections, 176 equations.

Table of Contents

  1. Introduction
  2. The Global and the Poincaré Vacuum
  3. AdS coordinates
  4. Quantization of the Bulk Fields and Boundary Operators
  5. The Relation of the Vacua
  6. The Virasoro Generators
  7. Bulk to bulk propagators in $AdS$ space
  8. Examples
  9. Bubbleography
  10. Supersymmetric YM at zero temperature
  11. Supersymmetric YM at nonzero temperature
  12. Confinement and flux tubes in non supersymmetric YM
  13. Conclusions