Sau, J. D., & Wang, S. (2024). Theory of anomalous Hall effect from screened vortex charge in a phase disordered superconductor. arXiv preprint arXiv:2411.08969.
This research paper investigates the relationship between the anomalous Hall effect in the normal state of a material and its manifestation in the phase-disordered state of a superconductor above the Berezinskii-Kosterlitz-Thouless (BKT) transition. The authors aim to understand how the anomalous Hall conductivity, originating from Berry curvature in the normal state, influences the behavior of the system in the superconducting phase.
The authors develop a theoretical framework based on a gauge-invariant effective action for a superconductor exhibiting an anomalous Hall response. They numerically calculate superconductivity in an anomalous Hall metal using a model based on a bilayer gapped Dirac model on a square lattice, incorporating px+ipy superconducting pairing. The charge difference between vortices and antivortices is analyzed as a function of chemical potential and compared to the normal state Hall conductivity.
The authors conclude that the DC anomalous Hall conductivity in a phase-disordered superconductor above the BKT transition is primarily determined by the high-frequency AC Hall conductivity. This finding suggests that despite the screening of vortex charge, the anomalous Hall response persists in the superconducting state and is closely tied to the normal state's Berry curvature.
This research provides valuable insights into the behavior of anomalous Hall metals in their superconducting phases. The findings contribute to the understanding of how topological properties, such as Berry curvature, influence the transport properties of these materials.
The study focuses on a simplified model system, and further research is needed to explore the applicability of these findings to more complex materials and experimental setups. Investigating the effects of disorder and other factors on the anomalous Hall response in phase-disordered superconductors could be promising avenues for future investigation.
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by Jay D. Sau, ... às arxiv.org 11-15-2024
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