Hyperscaling violation, quasinormal modes and shear diffusion

Abstract

We study quasinormal modes of shear gravitational perturbations for hyperscaling violating Lifshitz theories, with Lifshitz and hyperscaling violating exponents z and θ. The lowest quasinormal mode frequency yields a shear diffusion constant which is in agreement with that obtained in previous work by other methods. In particular for theories with z< di+2-θ where di is the boundary spatial dimension, the shear diffusion constant exhibits power-law scaling with temperature, while for z=di+2-θ, it exhibits logarithmic scaling. We then calculate certain 2-point functions of the dual energy-momentum tensor holographically for z≤ di+2-θ, identifying the diffusive poles with the quasinormal modes above. This reveals universal behaviour η/s=1/4π for the viscosity-to-entropy-density ratio for all z≤ di+2-θ.