Higher Spin Gravity Amplitudes From Zero-form Charges
Abstract
We examine zero-form charges in Vasiliev's four-dimensional bosonic higher spin gravities. These are classical observables given by integrals over noncommutative twistor space of adjoint combinations of the zero-form master fields, including insertions of delta functions in the deformed oscillators serving as gauge invariant regulators. The regularized charges admit perturbative expansions in terms of multi-linear functionals in the Weyl zero-form, which are Bose symmetric and higher spin invariant by construction, and that can be interpreted as basic building blocks for higher spin gravity amplitudes. We compute two- and three-point functions by attaching external legs given by unfolded bulk-to-boundary propagators, and identify the result with the two- and three-current correlation functions in theories of free conformal scalars and fermions in three dimensions. Modulo assumptions on the structure of the sub-leading corrections, and relying on the generalized Hamiltonian off-shell formulation, we are thus led to propose an expression for the free energy as a sum of suitably normalized zero-form charges
Keywords
Cite
@article{arxiv.1208.3880,
title = {Higher Spin Gravity Amplitudes From Zero-form Charges},
author = {Nicolò Colombo and Per Sundell},
journal= {arXiv preprint arXiv:1208.3880},
year = {2015}
}
Comments
V2: Typos corrected, references added, footnote and note added, discussion section improved