State/Operator Correspondence in Higher-Spin dS/CFT
Abstract
A recently conjectured microscopic realization of the dS/CFT correspondence relating Vasiliev's higher-spin gravity on dS to a Euclidean CFT is used to illuminate some previously inaccessible aspects of the dS/CFT dictionary. In particular it is argued that states of the boundary CFT on are holographically dual to bulk states on geodesically complete, spacelike slices which terminate on an at future infinity. The dictionary is described in detail for the case of free scalar excitations. The ground states of the free or critical model are dual to dS-invariant plane-wave type vacua, while the bulk Euclidean vacuum is dual to a certain mixed state in the CFT. CFT states created by operator insertions are found to be dual to (anti) quasinormal modes in the bulk. A norm is defined on the bulk Hilbert space and shown for the scalar case to be equivalent to both the Zamolodchikov and pseudounitary C-norm of the CFT.
Cite
@article{arxiv.1204.1057,
title = {State/Operator Correspondence in Higher-Spin dS/CFT},
author = {Gim Seng Ng and Andrew Strominger},
journal= {arXiv preprint arXiv:1204.1057},
year = {2015}
}
Comments
24 pages