Sticky Normal-Superconductor Interface
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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 $(E_F/\Delta)$, with $E_F$ the Fermi energy and $\Delta$ the gap. Interestingly, the GH effect appears only as a time delay $\delta t$ without any lateral shift, and the corresponding delay length is about $(E_F/\Delta)\lambda_F$, with $\lambda_F$ the Fermi wavelength. This makes the NS interface "sticky" when $\Delta \ll E_F$, 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 $\Delta$, the resonance-mode effect makes a transition from Andreev to the specular electron reflection as the width of the sandwiched superconductor is reduced.
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Cited by 1 Pith paper
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Enhanced Andreev Reflection in Flat-Band Systems: Wave Packet Dynamics, DC Transport and the Josephson Effect
Flat bands enhance Andreev reflection and induce asymmetric electronic Goos-Hänchen shifts at NS interfaces in the extended α-T3 lattice, producing a Hall-like Josephson response in SNS geometry dominated by quasi-flat bands.
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