A natural language for AdS/CFT correlators

We provide dramatic evidence that 'Mellin space' is the natural home for corre- lation functions in CFTs with weakly coupled bulk duals. In Mellin space, CFT correlators have poles corresponding to an OPE decomposition into 'left' and 'right' sub-correlators, in direct analogy with the factorization channels of scattering amplitudes. In the regime where these correlators can be computed by tree level Witten diagrams in AdS, we derive an explicit formula for the residues of Mellin amplitudes at the corresponding factorization poles, and we use the conformal Casimir to show that these amplitudes obey algebraic finite difference equations. By analyzing the recursive structure of our factorization formula we obtain simple diagrammatic rules for the construction of Mellin amplitudes corresponding to tree-level Witten diagrams in any bulk scalar theory. We prove the diagrammatic rules using our finite difference equations. Finally, we show that our factorization formula and our diagrammatic rules morph into the at space S-Matrix of the bulk theory, reproduc- ing the usual Feynman rules, when we take the at space limit of AdS/CFT. Throughout we emphasize a deep analogy with the properties of at space scattering amplitudes in momentum space, which suggests that the Mellin amplitude may provide a holographic definition of the at space S-Matrix.