Covariant Locally Localized Gravity and vDVZ Continuity

Abstract

The Karch-Randall braneworld concerns the physics of an AdSd brane embedded in an ambient gravitational AdSd+1 spacetime. The gravitational theory induced on the AdSd brane has a very light but massive graviton. It has been established that the zero graviton mass limit of the d-dimensional graviton propagator is smooth at tree-level. Furthermore, this smoothness was conjectured to persist to the quantum level. This conjecture suggests that the massive graviton on the AdSd brane is due to spontaneous symmetry breaking, which is consistent with its holographic dual description. In this letter, we show that the zero mass limit of the partition function is a theory of a massless graviton and a decoupled massive vector. The zero mass limit is not the basic Randall-Sundrum II model, but a theory with these additional decoupled vector degrees of freedom coupled only to gravity. The proof relies on deriving the fully covariant description of the d-dimensional gravity theory which enables us to compute the one-loop partition function. At the end, we comment on the implications of this result to the physics of entanglement islands.