Kondo Signatures of a Quantum Magnetic Impurity in Topological Superconductor
ORAL
Abstract
We study the Kondo physics of a quantum magnetic impurity in two-dimensional topological
superconductors (TSCs), either intrinsic or induced on the surface of a bulk topological insulator,
using a numerical renormalization group technique. We show that, despite sharing the p + ip
pairing symmetry, intrinsic and extrinsic TSCs host different physical processes that produce distinct
Kondo signatures. Extrinsic TSCs harbor an unusual screening mechanism involving both electron
and orbital degrees of freedom that produces rich and prominent Kondo phenomena, especially an
intriguing pseudospin Kondo singlet state in the superconducting gap and a spatially anisotropic
spin correlation. In sharp contrast, intrinsic TSCs support a robust impurity spin doublet ground
state and an isotropic spin correlation. These findings advance fundamental knowledge of novel
Kondo phenomena in TSCs and suggest experimental avenues for their detection and distinction.
superconductors (TSCs), either intrinsic or induced on the surface of a bulk topological insulator,
using a numerical renormalization group technique. We show that, despite sharing the p + ip
pairing symmetry, intrinsic and extrinsic TSCs host different physical processes that produce distinct
Kondo signatures. Extrinsic TSCs harbor an unusual screening mechanism involving both electron
and orbital degrees of freedom that produces rich and prominent Kondo phenomena, especially an
intriguing pseudospin Kondo singlet state in the superconducting gap and a spatially anisotropic
spin correlation. In sharp contrast, intrinsic TSCs support a robust impurity spin doublet ground
state and an isotropic spin correlation. These findings advance fundamental knowledge of novel
Kondo phenomena in TSCs and suggest experimental avenues for their detection and distinction.
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Presenters
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Xiaoqun Wang
Shanghai Jiao Tong University
Authors
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Xiaoqun Wang
Shanghai Jiao Tong University
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Rui Wang
Shanghai Jiao Tong University
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Wei Su
Nanjing University
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Jian-Xin Zhu
Theoretical Division, Los Alamos National Laboratory, Los Alamos National Laboratory, Theoretical Division and Center for Integrated Nanotechnologies, Los Alamos National Laboratory, T4-PHYS OF CONDENSED MATTER & COMPLEX SYS, Los Alamos National Laboratory, Los aAlamos, USA, CINT, Los Alamos National Laboratory, Center for Integrated Nanotechnologies, Los Alamos National Laboratory, Los Alamos National Laboratory,
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Chin-Sen Ting
University of Houston
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Hai Li
University of Houston
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Changfeng Chen
University of Nevada
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Baigeng Wang
Nanjing University