English

The $(2,0)$ superconformal bootstrap

High Energy Physics - Theory 2016-01-27 v1

Abstract

We develop the conformal bootstrap program for six-dimensional conformal field theories with (2,0)(2,0) supersymmetry, focusing on the universal four-point function of stress tensor multiplets. We review the solution of the superconformal Ward identities and describe the superconformal block decomposition of this correlator. We apply numerical bootstrap techniques to derive bounds on OPE coefficients and scaling dimensions from the constraints of crossing symmetry and unitarity. We also derive analytic results for the large spin spectrum using the lightcone expansion of the crossing equation. Our principal result is strong evidence that the A1A_1 theory realizes the minimal allowed central charge (c=25)(c=25) for any interacting (2,0)(2,0) theory. This implies that the full stress tensor four-point function of the A1A_1 theory is the unique unitary solution to the crossing symmetry equation at c=25c=25. For this theory, we estimate the scaling dimensions of the lightest unprotected operators appearing in the stress tensor operator product expansion. We also find rigorous upper bounds for dimensions and OPE coefficients for a general interacting (2,0)(2,0) theory of central charge cc. For large cc, our bounds appear to be saturated by the holographic predictions obtained from eleven-dimensional supergravity.

Keywords

Cite

@article{arxiv.1507.05637,
  title  = {The $(2,0)$ superconformal bootstrap},
  author = {Christopher Beem and Madalena Lemos and Leonardo Rastelli and Balt C. van Rees},
  journal= {arXiv preprint arXiv:1507.05637},
  year   = {2016}
}

Comments

58 pages (41 plus three appendices), 15 figures

R2 v1 2026-06-22T10:15:19.029Z