On bulk reconstruction in Lorentzian AdS and its flat space limit

Abstract

We revisit the reconstruction of a free quantum field in 4-dimensional Lorentzian Anti-de-Sitter (AdS4) spacetime in terms of primary operators in the boundary 3d CFT (CFT3). We show that the positive and negative energy subspaces of solutions to the Klein-Gordon equation in AdS can be spanned with bulk-to-boundary propagators with appropriate time orderings. As a result, free scalar fields on a codimension-1 bulk hypersurface Στ can be expressed in terms of operators integrated over boundary regions in the past or future of Στ with kernels given by time-ordered or anti-time-ordered propagators. We present various equivalent representations for the bulk field in terms of either CFT primaries or their shadows. We show from both a representation theoretic perspective and by direct computation of various flat space limits that our construction is the AdS analog of the canonical quantization of a free scalar in flat space. Depending on the choice of Δ and the location of the boundary insertions one obtains a decomposition of the scalar in either a plane wave basis (Δ→ ∞) or a Carrollian basis (fixed Δ). Finally, we show that the free scalar in AdS4 can be alternatively decomposed in terms of wavefunctions associated with principal series representations of dimension δ= 1 + iλ of an so(3,1) subalgebra of the AdS4 isometry algebra. We demonstrate that the latter become, in the limit of large AdS radius and for fixed δ, scalar conformal primary wavefunctions in flat space.