English

Quantizing higher-spin gravity in free-field variables

High Energy Physics - Theory 2018-04-04 v2

Abstract

We study the formulation of massless higher-spin gravity on AdS3_3 in a gauge in which the fundamental variables satisfy free field Poisson brackets. This gauge choice leaves a small portion of the gauge freedom unfixed, which should be further quotiented out. We show that doing so leads to a bulk version of the Coulomb gas formalism for WNW_N CFT's: the generators of the residual gauge symmetries are the classical limits of screening charges, while the gauge-invariant observables are classical WNW_N charges. Quantization in these variables can be carried out using standard techniques and makes manifest a remnant of the triality symmetry of W[λ]W_\infty[\lambda]. This symmetry can be used to argue that the theory should be supplemented with additional matter content which is precisely that of the Prokushkin-Vasiliev theory. As a further application, we use our formulation to quantize a class of conical surplus solutions and confirm the conjecture that these are dual to specific degenerate WNW_N primaries, to all orders in the large central charge expansion.

Keywords

Cite

@article{arxiv.1712.08078,
  title  = {Quantizing higher-spin gravity in free-field variables},
  author = {Andrea Campoleoni and Stefan Fredenhagen and Joris Raeymaekers},
  journal= {arXiv preprint arXiv:1712.08078},
  year   = {2018}
}

Comments

31 pages + appendices. V2: typos corrected, reference added

R2 v1 2026-06-22T23:26:17.231Z