In-gap excitations due to defects in topological superconductor with spin-orbit coupling
ORAL
Abstract
Recent microscopy experiments on superconducting monolayer of lead(Pb) grown over clusters of cobalt atoms have raised urgent questions about in-gap electronic states in presence of strong spin-orbit coupling and magnetism.
Using analytics and numerics we find that a topological defect in Rashba spin-orbit coupling (in contrast to a vortex in superconducting pairing) fully explains puzzling features of this experiment: 1) Two different zero-modes, one point-like at center of cluster and the other ring-shaped around it; 2) The zero mode pair is protected by a large energy gap; 3) The localization lengthscale inside the cluster is far smaller than superconducting coherence length , but comparable to it outside. The theory predicts that this is a Majorana pair, with remarkable isolation in energy thanks to the defect in strong spin-orbit coupling. We discuss the role of magnetic textures in our theoretical scenario.
Using analytics and numerics we find that a topological defect in Rashba spin-orbit coupling (in contrast to a vortex in superconducting pairing) fully explains puzzling features of this experiment: 1) Two different zero-modes, one point-like at center of cluster and the other ring-shaped around it; 2) The zero mode pair is protected by a large energy gap; 3) The localization lengthscale inside the cluster is far smaller than superconducting coherence length , but comparable to it outside. The theory predicts that this is a Majorana pair, with remarkable isolation in energy thanks to the defect in strong spin-orbit coupling. We discuss the role of magnetic textures in our theoretical scenario.
*Supported by the French Agence Nationale de la Recherche through the contract ANR Mistral, and by the Region Ile de France through the DIM Nano-K project ETERNAL.
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Presenters
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Andrej Mesaros
- Laboratoire de Physique des Solides, CNRS