Hydrodynamics of holographic superconductors

Amado, Irene; Kaminski, Matthias; Landsteiner, Karl

doi:10.1088/1126-6708/2009/05/021

Cited by 169 publications

(251 citation statements)

References 45 publications

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“…The AdS/CFT duality is a powerful tool for investigating strongly coupled gauge theories, the application might offer new insight into the study of strongly interacting condensed matter systems where the perturbational methods are no longer available. Therefore, much attention has been given to the studies of the AdS/CFT duality to condensed matter physics and in particular to superconductivity recently [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22]. In these studies most of the holographically dual descriptions for a superconductor are based on a model that a simple Einstein-Maxwell theory coupled to a charged scalar.…”

Section: Introductionmentioning

confidence: 99%

Holographic superconductor/insulator transition with logarithmic electromagnetic field in Gauss–Bonnet gravity

2012

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The behaviors of the holographic superconductors/insulator transition are studied by introducing a charged scalar field coupled with a logarithmic electromagnetic field in both the Einstein-Gauss-Bonnet AdS black hole and soliton. For the Einstein-Gauss-Bonnet AdS black hole, we find that: i) the larger coupling parameter of logarithmic electrodynamic field b makes it easier for the scalar hair to be condensated;ii) the ratio of the gap frequency in conductivity ω g to the critical temperature T c depends on both b and the Gauss-Bonnet constant α; and iii) the critical exponents are independent of the b and α. For the EinsteinGauss-Bonnet AdS Soliton, we show that the system is the insulator phase when the chemical potential µ is small, but there is a phase transition and the AdS soliton reaches the superconductor (or superfluid) phase when µ larger than critical chemical potential. A special property should be noted is that the critical chemical potential is not changed by the coupling parameter b but depends on α.

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Section: Introductionmentioning

confidence: 99%

Holographic superconductor/insulator transition with logarithmic electromagnetic field in Gauss–Bonnet gravity

2012

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“…In the immediate future, one might also construct vortices and compare them with the dark solitons [21]. In a closely related work, the hydrodynamic properties of this system was studied [22]. It would be important to examine the relation between that study and ours.…”

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confidence: 97%

Dark solitons in holographic superfluids

et al. 2009

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“…This system of equations, with the symmetry structure (5.21), is identical to that studied in [46][47][48], where it was found that, in the hydrodynamic limit ω, κ 1, the poles of the lie on:…”

Section: Jhep01(2014)054mentioning

confidence: 70%

Coexistence of two vector order parameters: a holographic model for ferromagnetic superconductivity

Amoretti

Braggio

Maggiore

et al. 2014

J. High Energ. Phys.

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Abstract:We study a generalization of the standard holographic p-wave superconductor featuring two interacting vector order parameters. Basing our argument on the symmetry and linear response properties of the model, we propose it as a holographic effective theory describing a strongly coupled ferromagnetic superconductor. We show that the two order parameters undergo concomitant condensations as a manifestation of an intrinsically interlaced charge/spin dynamics. Such intertwined dynamics is confirmed by the study of the transport properties. We characterize thoroughly the equilibrium and the linear response (i.e. optical conductivity and spin susceptibility) of the model at hand by means of a probe approximation analysis. Some insight about the effects of backreaction in the normal phase can be gained by analogy with the s-wave unbalanced holographic superconductor.

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Hydrodynamics of holographic superconductors

Cited by 169 publications

References 45 publications

Holographic superconductor/insulator transition with logarithmic electromagnetic field in Gauss–Bonnet gravity

Holographic superconductor/insulator transition with logarithmic electromagnetic field in Gauss–Bonnet gravity

Dark solitons in holographic superfluids

Coexistence of two vector order parameters: a holographic model for ferromagnetic superconductivity

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