Advances in materials and fabrication of superconducting devices allows the exploration of novel quantum effects in synthetic superconducting systems beyond conventional Josephson junction arrays. As an example, we introduce a new circuit element, the Y-splitter, a superconducting loop with three leads and three Josephson junctions, smaller or comparable in size to the superconducting coherence length of the material. By tuning magnetic flux through an array of Y-splitters, Cooper-pair transport can be made to interfere destructively, while spatially separated split Cooper pairs propagate coherently. We consider an array of Y-splitters connected in a two-dimensional star [Archimedean (3,122)] geometry, deformable into the kagome lattice, and find a rich phase diagram that includes topological superconducting phases with Chern numbers ±2. Experimental realization appears feasible.
@article{arxiv.2408.06420,
title = {Cooper-pair splitters as circuit elements for realizing topological superconductors},
author = {Guilherme Delfino and Dmitry Green and Saulius Vaitiekėnas and Charles M. Marcus and Claudio Chamon},
journal= {arXiv preprint arXiv:2408.06420},
year = {2025}
}
Comments
19 pages, 18 figures. v2: Added Appendix A which explores the transport properties of a single Cooper-pair splitter