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Sticky Normal-Superconductor Interface

Superconductivity 2012-12-27 v1 Mesoscale and Nanoscale Physics
Authors: Soo-Young Lee , Arseni Goussev , Orestis Georgiou , Goran Gligoric , Achilleas Lazarides
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Abstract

We study the quantum Goos-H\"{a}nchen(GH) effect for wave-packet dynamics at a normal/superconductor (NS) interface. We find that the effect is amplified by a factor (EF/Δ)(E_F/\Delta), with EFE_F the Fermi energy and Δ\Delta the gap. Interestingly, the GH effect appears only as a time delay δt\delta t without any lateral shift, and the corresponding delay length is about (EF/Δ)λF(E_F/\Delta)\lambda_F, with λF\lambda_F the Fermi wavelength. This makes the NS interface "sticky" when ΔEF\Delta \ll E_F, since typically GH effects are of wavelength order. This "sticky" behavior can be further enhanced by a resonance mode in NSNS interface. Finally, for a large Δ\Delta, the resonance-mode effect makes a transition from Andreev to the specular electron reflection as the width of the sandwiched superconductor is reduced.

Cite

@article{arxiv.1212.6188,
  title  = {Sticky Normal-Superconductor Interface},
  author = {Soo-Young Lee and Arseni Goussev and Orestis Georgiou and Goran Gligoric and Achilleas Lazarides},
  journal= {arXiv preprint arXiv:1212.6188},
  year   = {2012}
}

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