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Flato-Fronsdal theorem for higher-order singletons

Thomas Basile, Xavier Bekaert, Nicolas Boulanger

Abstract

We prove a generalised Flato-Fronsdal theorem for higher-order, scalar and spinor, singletons. In the resulting infinite tower of bulk higher-spin fields, we point out the occurrence of partially-massless fields of all depths. This leads us to conjecture a holographic duality between a higher-spin gravity theory around $AdS_{d+1}$ with the aforementioned spectrum of fields, and a free $CFT_d$ of fundamental (higher-order) scalar and spinor singletons. As a first check of this conjecture, we find that the total Casimir energy vanishes at one loop.

Flato-Fronsdal theorem for higher-order singletons

Abstract

We prove a generalised Flato-Fronsdal theorem for higher-order, scalar and spinor, singletons. In the resulting infinite tower of bulk higher-spin fields, we point out the occurrence of partially-massless fields of all depths. This leads us to conjecture a holographic duality between a higher-spin gravity theory around with the aforementioned spectrum of fields, and a free of fundamental (higher-order) scalar and spinor singletons. As a first check of this conjecture, we find that the total Casimir energy vanishes at one loop.

Paper Structure

This paper contains 17 sections, 30 equations.

Table of Contents

  1. Introduction
  2. Notation and methodology
  3. Notation.
  4. Characters of partially-massless fields and higher-order singletons
  5. Review of general results
  6. Character of a generalised Verma module
  7. Characters of various specific highest-weight modules
  8. Multi-linetons Di and Rac.
  9. Bulk scalar fields.
  10. Totally-symmetric fields/operators.
  11. Mixed-symmetry fields/operators.
  12. Unitarity.
  13. Fusion rules for higher-order singletons
  14. Remark.
  15. Casimir energy
  16. ...and 2 more sections