In 1D Anderson and Kondo lattices, reservoir-mediated extended interactions produce near-long-range superconducting and magnetic correlations at intermediate scales before the insulating state dominates.
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Doping away from half-filling in superconducting-metallic bilayers breaks the balance between superconducting and density-density correlations in favor of the former, enabling near-long-range superconducting order not precluded by a small charge gap.
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Mapping reservoir-enhanced superconductivity to near-long-range magnetic order in the undoped one-dimensional Anderson and Kondo lattices
In 1D Anderson and Kondo lattices, reservoir-mediated extended interactions produce near-long-range superconducting and magnetic correlations at intermediate scales before the insulating state dominates.
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Enhancement of superconducting stiffness in hybrid superconducting-metallic bilayers
Doping away from half-filling in superconducting-metallic bilayers breaks the balance between superconducting and density-density correlations in favor of the former, enabling near-long-range superconducting order not precluded by a small charge gap.