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Main Authors: Kattel, Pradip, Zhakenov, Abay, Andrei, Natan
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.01924
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author Kattel, Pradip
Zhakenov, Abay
Andrei, Natan
author_facet Kattel, Pradip
Zhakenov, Abay
Andrei, Natan
contents We consider a model describing a system where the superconductivity competes with the overscreened Kondo effect. The model consists of a single spin$-\frac{1}{2}$ quantum impurity at the edge of a quantum wire where spin$-1$ bulk fermions interact attractively, generating a (superconducting) mass gap. The competition between the Kondo screening and the superconductivity leads to a rich phase structure. We find that for strong Kondo coupling, there is a regime of phase space where the Kondo phase is stable with the impurity \textit{overscreened} by a multiparticle Kondo effect, and a Kondo scale is dynamically generated. When the bulk and boundary interaction strength are comparable, we find that a midgap state appears in the spectrum and screens the impurity, while in the ground state, the impurity is unscreened. This midgap state is akin to the Yu-Shiba-Rusinov (YSR) states that exist in the entire phase space in the BCS superconductor. Moreover, when the bulk superconducting interaction strength is stronger than the boundary Kondo interaction strength, the impurity can no longer be screened. Further, between the Kondo and YSR phases, we find a novel phase where, while the Kondo cloud overscreens the impurity, a boundary excitation exists that has vanishing energy in the thermodynamic limit. Similar phase diagrams that result from competition between different mechanisms were found for other models, too: the dissipative Kondo system, where dissipation competes with screening; the Kondo impurity coupled to spin-1/2 attractively interacting fermions where condensation competes with screening; and the XXX-Kondo model, where the lattice cutoff and the bulk spin interaction compete with screening.
format Preprint
id arxiv_https___arxiv_org_abs_2412_01924
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Kondo overscreening in the presence of superconductivity
Kattel, Pradip
Zhakenov, Abay
Andrei, Natan
Strongly Correlated Electrons
High Energy Physics - Theory
Mathematical Physics
Exactly Solvable and Integrable Systems
Quantum Physics
We consider a model describing a system where the superconductivity competes with the overscreened Kondo effect. The model consists of a single spin$-\frac{1}{2}$ quantum impurity at the edge of a quantum wire where spin$-1$ bulk fermions interact attractively, generating a (superconducting) mass gap. The competition between the Kondo screening and the superconductivity leads to a rich phase structure. We find that for strong Kondo coupling, there is a regime of phase space where the Kondo phase is stable with the impurity \textit{overscreened} by a multiparticle Kondo effect, and a Kondo scale is dynamically generated. When the bulk and boundary interaction strength are comparable, we find that a midgap state appears in the spectrum and screens the impurity, while in the ground state, the impurity is unscreened. This midgap state is akin to the Yu-Shiba-Rusinov (YSR) states that exist in the entire phase space in the BCS superconductor. Moreover, when the bulk superconducting interaction strength is stronger than the boundary Kondo interaction strength, the impurity can no longer be screened. Further, between the Kondo and YSR phases, we find a novel phase where, while the Kondo cloud overscreens the impurity, a boundary excitation exists that has vanishing energy in the thermodynamic limit. Similar phase diagrams that result from competition between different mechanisms were found for other models, too: the dissipative Kondo system, where dissipation competes with screening; the Kondo impurity coupled to spin-1/2 attractively interacting fermions where condensation competes with screening; and the XXX-Kondo model, where the lattice cutoff and the bulk spin interaction compete with screening.
title Kondo overscreening in the presence of superconductivity
topic Strongly Correlated Electrons
High Energy Physics - Theory
Mathematical Physics
Exactly Solvable and Integrable Systems
Quantum Physics
url https://arxiv.org/abs/2412.01924