P-Wave Holographic Insulator/Superconductor Phase Transition
Amin Akhavan, Mohsen Alishahiha
TL;DR
This paper investigates the phase transition between insulator and superconductor states using a five-dimensional holographic model with p-wave symmetry, analyzing both probe and back-reacted solutions, including zero temperature limits.
Contribution
It introduces a comprehensive study of p-wave holographic phase transitions in higher-dimensional models with detailed analysis of probe and back-reacted solutions, including zero temperature behavior.
Findings
Identified phase transition characteristics in five-dimensional AdS soliton models.
Analyzed the effects of back reaction on the phase structure.
Explored zero temperature limits of the holographic superconductor.
Abstract
Using a five dimensional AdS soliton in an Einstein-Yang-Mills theory with SU(2) gauge group we study p-wave holographic insulator/superconductor phase transition. To explore the phase structure of the model we consider the system in the probe limit as well as fully back reacted solutions. We will also study zero temperature limit of the p-wave holographic superconductor in four dimensions.
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