A hetero-dimensional superconducting metamaterial with magnetic adatoms hosts a tunable weak-to-bulk-dissociated topological superconducting phase without requiring spin-orbit coupling.
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First-principles BdG-SKKR calculations on Mn/Nb(110) heterostructures find antiferromagnetic order induces an order-of-magnitude larger singlet superconducting order parameter in the Mn layers than ferromagnetic order, reaching at most 4.44% of bulk Nb value, with minor triplet mixing.
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Bulk-dissociated topological bands without spin-orbit coupling in hetero-dimensional superconducting metamaterials
A hetero-dimensional superconducting metamaterial with magnetic adatoms hosts a tunable weak-to-bulk-dissociated topological superconducting phase without requiring spin-orbit coupling.
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Influence of Magnetic Order on Proximity-Induced Superconductivity in Mn Layers on Nb(110) from First Principles
First-principles BdG-SKKR calculations on Mn/Nb(110) heterostructures find antiferromagnetic order induces an order-of-magnitude larger singlet superconducting order parameter in the Mn layers than ferromagnetic order, reaching at most 4.44% of bulk Nb value, with minor triplet mixing.