Anisotropic plasma with a chemical potential and scheme-independent instabilities

Abstract

Generically, the black brane solution with planar horizons is thermodynamically stable. We find a counter-example to this statement by demonstrating that an anisotropic black brane is unstable. We present a charged black brane solution dual to a spatially anisotropic finite temperature N=4 super Yang-Mills plasma at finite U(1) chemical potential. This static and regular solution is obtained both numerically and analytically. We uncover rich thermodynamic phase structures for this system by considering the cases when the anisotropy constant "a" takes real and imaginary values, respectively. In the case a2>0, the phase structure of this anisotropic black brane is similar to that of Schwarzschild-AdS black hole with S3 horizon topology, yielding a thermodynamical instability at smaller horizon radii. For the condition a2≤ 0, the thermodynamics is dominated by the black brane phase for all temperatures.