TL;DR
This paper demonstrates that analog gravity systems can model charged black holes in Anti-de Sitter space, providing a new perspective on dualities between different condensed matter systems via gauge-gravity correspondence.
Contribution
It introduces the concept of analog gravity systems for AdS black holes, linking them to condensed matter systems and expanding the scope of gauge-gravity duality.
Findings
Analog gravity systems can replicate the physics of charged AdS black holes.
These systems provide a new way to study strongly coupled condensed matter phenomena.
A duality between different condensed matter systems is suggested.
Abstract
We show that analog gravity systems exist for charged, planar black holes in asymptotic Anti-de Sitter space. These black holes have been employed to describe, via the gauge-gravity duality, strongly coupled condensed matter systems on the boundary of AdS-space. The analog gravity system is a different condensed matter system that, in a suitable limit, describes the same bulk physics as the theory on the AdS boundary. This combination of the gauge-gravity duality and analog gravity therefore suggests a duality between different condensed matter systems.
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