Crystalline geometries from fermionic vortex lattice with hyperscaling violation

Abstract

We analytically consider the spontaneous formation of a fermionic crystalline geometry in a gravity background with Lifshitz scaling and/or hyperscaling violation. Fermionic vortex lattice solution sourced by the lowest Laundau level has been obtained. Thermodynamic analysis shows that the fermionic vortex lattice favors a triangular configuration, regardless of the values of the Lifshitz scaling z and the hyperscaling violation exponent θ. Our results also show that the larger z or lower θ leads to more stable lattices thermodynamically.