On the Current Flow in Superconductors: Universal Trends and Holographic Analysis |
M. Rogatko and K.I. Wysokiński
Institute of Physics, Maria Curie-Skłodowska University, 20-031 Lublin, Poland |
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The superconducting state can be destroyed by the increase of temperature, magnetic field or current flow beyond their critical values. The critical current Ic is of special interest as most of the practical applications of superconductors crucially depend on its limiting value. Recent analysis of experimental data in many families of type I and type II superconductors have discovered an interesting universal relation between critical current density jc, the critical magnetic field Hc and the penetration depth λ. For type II superconductors the role of the thermodynamic critical field Hc is played by the lower critical field Hc1 and ratio between the relevant dimension of the system d with respect to the penetration depth matters. Thus the effective dimensionality of the system is important and rules the system behaviour. It turns out that the holographic analogy provides an interesting justification of the above findings. We have calculated the temperature dependence of the critical current in the strongly coupled holographic superconductors with the current flow. It has been found that, independently of the symmetry of the order parameter, the critical current depends on temperature in 2d systems as Ic ∝ (Tc-T)3/2 and agrees with that observed in thin films (d<λ). Similar calculations for 3d systems (d>λ) reveal linear T-dependence Ic ∝(Tc-T). |
DOI: 10.12693/APhysPolA.133.376 PACS numbers: 74.25.-q; 74.25.Sv; 11.25.Tq |