Abstract:
We construct electrically charged AdS5 black hole solutions whose charge, mass
and boost-parameters vary slowly with the space-time coordinates. From the perspective of
the dual theory, these are equivalent to hydrodynamic configurations with varying chemical
potential, temperature and velocity fields. We compute the boundary theory transport
coefficients associated with a derivative expansion of the energy momentum tensor and
R-charge current up to second order. In particular, for the current we find a first order
transport coefficient associated with the vorticity of the fluid.
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