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Supercurrent: Vector Hair for an AdS Black Hole

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arxiv 0809.4494 v1 pith:2JO6QCJL submitted 2008-09-26 hep-th cond-mat.supr-congr-qc

Supercurrent: Vector Hair for an AdS Black Hole

classification hep-th cond-mat.supr-congr-qc
keywords blackphasesupercurrentsuperconductingdiagramfoundholeholes
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In arXiv:0803.3295 [hep-th] a holographic black hole solution is discussed which exhibits a superconductor like transition. In the superconducting phase the black holes show infinite DC conductivity. This gives rise to the possibility of deforming the solutions by turning on a time independent current (supercurrent), without any electric field. This type of deformation does not exist for normal (non-superconducting) black holes, due to the no-hair theorems. In this paper we have studied such a supercurrent solution and the associated phase diagram. Interestingly, we have found a "special point" (critical point) in the phase diagram where the second order superconducting phase transition becomes first order. Supercurrent in superconducting materials is a well studied phenomenon in condensed matter systems. We have found some qualitative agreement with known results.

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