Three-dimensional non-relativistic chiral massive higher-spin gravity

Abstract

We obtain a non-relativistic chiral massive higher-spin gravity in a deformed AdS3 spacetime by applying a Lifshitz deformation and subsequent null reduction to chiral massless higher-spin gravity in AdS4. Intriguingly, the vertices of this non-relativistic theory are less constrained than the ones of the original 4d chiral massless theory since we do not have enough dynamical generators to fix the couplings uniquely. Anticipating higher-spin interactions should be suppressed, we propose a simple approximate mass-spin relation which interpolates between the relativistic and non-relativistic regimes. With the proposed mass-spin relation, we observe that that higher-spin interactions indeed become suppressed at large spins, consistent with low-energy physics. We conjecture that the holographic dual of the non-relativistic chiral massive higher-spin gravity proposed in this work is a 2d non-relativistic Landau-Ginzburg theory in the light-cone gauge. This non-relativistic theory is expected to describe a two-fluid system with a λ-point constrained in one spatial dimension.