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Condensed Matter > Superconductivity
Title: Flat Band Josephson Junctions with Quantum Metric
(Submitted on 14 Apr 2024)
Abstract: In this work, we consider superconductor/flat band material/superconductor (S/FB/S) Josephson junctions (JJs) where the flat band material possesses isolated flat bands with exactly zero Fermi velocity. Contrary to conventional S/N/S JJs in which the critical Josephson current vanishes when the Fermi velocity goes to zero, we show here that the critical current in the S/FB/S junction is controlled by the quantum metric length $\xi_{QM}$ of the flat bands. Microscopically, when $\xi_{QM}$ of the flat band is long enough, the interface bound states originally localized at the two S/FB, FB/S interfaces can penetrate deeply into the flat band material and hybridize to form Andreev bound states (ABS). These ABS are able to carry long range and sizable supercurrents. Importantly, $\xi_{QM}$ also controls how far the proximity effect can penetrate into the flat band material. This is in sharp contrast with de Gennes' theory for S/N junctions in which the proximity effect is expected to be zero when the Fermi velocity of the normal metal is zero. We further suggest that the S/FB/S junctions gives rise to a new type of resonant Josephson transistors which can carry sizeable and highly gate-tunable supercurrent.
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