Fano-Andreev effect in T-shape double-quantum-dot in the Kondo regime

TL;DR

This paper studies how Kondo and Andreev states interact in a T-shaped double quantum dot system, revealing Fano antiresonances and the influence on Andreev transport, with implications for quantum dot device behavior.

Contribution

It uncovers the interplay between Kondo and Andreev states in a double quantum dot, highlighting Fano antiresonances and the crossover regions affecting transport properties.

Findings

Kondo resonance is modified by Andreev bound states.

Fano antiresonances appear in the local density of states.

Interaction influences Andreev transport significantly.

Abstract

In the present work, we investigate the electronic transport through a T-shape double quantum dot system coupled to two normal leads and to one superconducting lead. We explore the interplay between Kondo and Andreev states due to proximity effects. We find that Kondo resonance is modified by the Andreev bound states, which manifest through Fano antiresonances in the local density of states of the embedded quantum dot and normal transmission. This means that there is a correlation between Andreev bound states and Fano resonances that is robust under the influence of high electronic correlation. We have also found that the dominant couplings at the quantum dots are characterized by a crossover region that defines the range where the Fano-Kondo and the Andreev-Kondo effect prevail in each quantum dot. Likewise, we find that the interaction between Kondo and Andreev bound states has a notable influence on the Andreev transport.