Identifies the dual model F equations for a 5D holographic superconductor/superfluid in the probe limit, obtaining numerical coefficients exactly.
Comments on higher-derivative corrections in the AdS/CFT duality
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
abstract
We point out that some works on higher-derivative corrections in the AdS/CFT duality use inappropriate "AdS/CFT dictionary." We illustrate the problem using a class of holographic superconductors in the Gauss-Bonnet black hole background. We also point out another problem in previous works. These modifications can change the qualitative behavior of physical quantities such as the spontaneous condensate. Whether the condensate increases or decreases under higher-derivative corrections depends on the system one considers, and there is no universality in this sense.
fields
hep-th 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Prior works on higher-derivative corrections to holographic superconductors may employ an incorrect AdS/CFT dictionary, so that the direction of change in spontaneous condensate depends on the specific model with no universal rule.
citing papers explorer
-
The dual Ginzburg-Landau theory for a holographic superfluid/superconductor: Critical dynamics
Identifies the dual model F equations for a 5D holographic superconductor/superfluid in the probe limit, obtaining numerical coefficients exactly.
-
Comments on higher-derivative corrections in the AdS/CFT duality
Prior works on higher-derivative corrections to holographic superconductors may employ an incorrect AdS/CFT dictionary, so that the direction of change in spontaneous condensate depends on the specific model with no universal rule.