Instability of Baryonic Black Branes
Abstract
Baryonic black branes describe the quantum critical phase of the conformal conifold gauge theory at strong coupling. This phase extends to zero temperature at a finite baryonic chemical potential, represented by extremal black branes with AdS2× R3× T1,1 throat in asymptotic AdS5× T1,1 geometry. We demonstrate here that this phase is dynamically unstable below some critical value of Tc/μ: the instability is represented by a diffusive mode in the hydrodynamic sound channel with a negative diffusion coefficient. We also identify a new (exotic) ordered phase of the conifold gauge theory: this phase originates at the same critical value of Tc/μ, but extends to arbitrary high temperatures, and is characterized by an expectation value of a dimension-2 operator, O2 T2, in the limit μ T 0.
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