Holographic Superconductors with various condensates in   Einstein-Gauss-Bonnet gravity

Qiyuan Pan; Bin Wang; Eleftherios Papantonopoulos; Jeferson de; Oliveira; A.B. Pavan

arXiv:0912.2475·hep-th·May 19, 2010

Holographic Superconductors with various condensates in Einstein-Gauss-Bonnet gravity

Qiyuan Pan, Bin Wang, Eleftherios Papantonopoulos, Jeferson de, Oliveira, A.B. Pavan

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TL;DR

This paper investigates holographic superconductors within Einstein-Gauss-Bonnet gravity, analyzing how various parameters influence condensation and conductivity in different backgrounds, providing insights into their physical properties.

Contribution

It explores the effects of scalar mass, Gauss-Bonnet coupling, and dimensionality on holographic superconductor behavior in two specific geometries, extending previous models.

Findings

01

Scalar mass and Gauss-Bonnet coupling significantly affect condensation.

02

Conductivity and the ratio ω_g/T_c vary with parameters.

03

Different backgrounds show distinct superconducting properties.

Abstract

We study holographic superconductors in Einstein-Gauss-Bonnet gravity. We consider two particular backgrounds: a $d$ -dimensional Gauss-Bonnet-AdS black hole and a Gauss-Bonnet-AdS soliton. We discuss in detail the effects that the mass of the scalar field, the Gauss-Bonnet coupling and the dimensionality of the AdS space have on the condensation formation and conductivity. We also study the ratio $ω_{g} / T_{c}$ for various masses of the scalar field and Gauss-Bonnet couplings.

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