English

Designing edge currents using mesoscopic patterning in chiral d-wave superconductors

Superconductivity 2025-05-09 v2 Mesoscale and Nanoscale Physics

Abstract

Chiral superconductors are topological as characterized by a finite Chern number and chiral edge modes. Direct fingerprints of chiral superconductivity are thus often taken to be spontaneous edge currents with associated magnetic signatures. However, a number of recent theoretical studies have shown that the total edge current along semi-infinite edges is greatly reduced or even vanishes in many scenarios for all pairing symmetries except chiral pp-wave, thus impeding experimental detection. We demonstrate how mesoscopic finite-sized samples can be designed to give rise to a shape- and size-dependent strong enhancement of the chiral edge currents and their generated orbital magnetic moment and magnetic fields. In particular, we find that low rotational symmetry systems, such as pentagons and hexagons, give rise to the largest currents, while circular disks also generate large currents but in the opposite direction. We estimate the resulting magnetic fields to be as large as 0.010.50.01-0.5 mT, with a magnetic moment approaching μB/2\mu_B/2 per Cooper pair (Bohr magneton μB\mu_B). The current and magnetic signatures diverge with shrinking system sizes, eventually cut off by finite-size suppression of chiral superconductivity. We extract the full phase diagram as a function of temperature and system size for different geometries, including competing superconducting orders. In geometries strongly suppressing only one of the dd-wave components, we find an additional heat capacity jump, as large as 10%10\% of the bulk normal-superconducting transition, marking the transition between a chiral and a nodal dd-wave state. This further acts as an indirect signature of chiral superconductivity. Our results are relevant for system sizes on the order of tens to hundreds of coherence lengths, and highlight mesoscopic patterning as a viable route to experimentally identify chiral dd-wave superconductivity.

Keywords

Cite

@article{arxiv.2501.14563,
  title  = {Designing edge currents using mesoscopic patterning in chiral d-wave superconductors},
  author = {Patric Holmvall and Annica M. Black-Schaffer},
  journal= {arXiv preprint arXiv:2501.14563},
  year   = {2025}
}

Comments

20 pages, 12 figures

R2 v1 2026-06-28T21:16:21.934Z