Hua-Bi Zeng, Wei-Min Sun, Hong-Shi Zong
Published 2010-10-25, updated 2011-02-01Version 4
The p-wave and $p+ip$-wave holographic superconductors with fixed DC supercurrent are studied by introducing a non-vanishing vector potential. We find that close to the critical temperature $T_c$ of zero current, the numerical results of both the p wave model and the $p+ip$ model are the same as those of Ginzburg-Landau (G-L) theory, for example, the critical current $j_c \sim (T_c-T)^{3/2}$ and the phase transition in the presence of a DC current is a first order transition. Besides the similar results between both models, the $p+ip$ superconductor shows isotropic behavior for the supercurrent, while the p-wave superconductor shows anisotropic behavior for the supercurrent.
Comments: Version 4. 18 pages, 9figures. New results of the anisotropic behavior for the supercurrent in p-wave model added. Accepted by PRD
Journal: Phys.Rev.D83:046010,2011
Superconducting Coherence Length and Magnetic Penetration Depth of a p-wave Holographic Superconductor
Fermi arc in $p$-wave holographic superconductors
Comment on "First Order Transition in the Ginzburg-Landau Model"
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