TT/JT-deformed WZW models from Chern-Simons AdS3 gravity with mixed boundary conditions

Abstract

In this work we consider AdS3 gravitational theory with certain mixed boundary conditions at spatial infinity. Using the Chern-Simons formalism of AdS3 gravity, we find that these boundary conditions lead to non-trivial boundary terms, which, in turn, produce exactly the spectrum of the TT/JT-deformed CFTs. We then follow the procedure for constructing asymptotic boundary dynamics of AdS3 to derive the constrained TT-deformed WZW model from Chern-Simons gravity. The resulting theory turns out to be the TT-deformed Alekseev-Shatashvili action after disentangling the constraints. Furthermore, by adding a U(1) gauge field associated to the current J, we obtain one type of the J T-deformed WZW model, and show that its action can be constructed from the gravity side. These results provide a check on the correspondence between the TT/JT-deformed CFTs and the deformations of boundary conditions of AdS3, the latter of which may be regarded as coordinate transformations.