Publikation: Exploring the energy spectrum of a four-terminal Josephson junction : Towards topological Andreev band structures
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2025
Autor:innen
Antonelli, Tommaso
Coraiola, Marco
Sabonis, Deividas
ten Kate, Sofieke C.
Cheah, Erik
Krizek, Filip
Schott, Rüdiger
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Zusammenfassung
Hybrid multiterminal Josephson junctions (JJs) are expected to harbor a novel class of Andreev bound states (ABSs), including topologically nontrivial states in four-terminal devices. In these systems, topological phases emerge when ABSs depend on at least three superconducting phase differences, resulting in a three-dimensional (3D) energy spectrum characterized by Weyl nodes at zero energy. Here, we realize a four-terminal JJ in a hybrid Al/InAs heterostructure, where ABSs form a synthetic 3D band structure. We probe the energy spectrum using tunneling spectroscopy and identify spectral features associated with the formation of a tri-Andreev molecule, a bound state whose energy depends on three superconducting phases and, therefore, is able to host topological ABSs. The experimental observations are well described by a numerical model. The calculations predict the appearance of four Weyl nodes at zero energy within a gap smaller than the experimental resolution. These topological states are theoretically predicted to remain stable within an extended region of the parameter space, well accessible by our device. These findings establish an experimental foundation to study high-dimensional synthetic band structures in multiterminal JJs, and to realize topological Andreev bands.
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530 Physik
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Andreev bound state, multi-terminal Josephson junction, superconducting devices, Weyl nodes
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ANTONELLI, Tommaso, Marco CORAIOLA, David OHNMACHT, Aleksandr SVETOGOROV, Deividas SABONIS, Sofieke C. TEN KATE, Erik CHEAH, Filip KRIZEK, Rüdiger SCHOTT, Juan Carlos CUEVAS, Wolfgang BELZIG, Werner WEGSCHEIDER, Fabrizio NICHELE, 2025. Exploring the energy spectrum of a four-terminal Josephson junction : Towards topological Andreev band structuresBibTex
@unpublished{Antonelli2025-01Explo-71965,
title={Exploring the energy spectrum of a four-terminal Josephson junction : Towards topological Andreev band structures},
year={2025},
author={Antonelli, Tommaso and Coraiola, Marco and Ohnmacht, David and Svetogorov, Aleksandr and Sabonis, Deividas and ten Kate, Sofieke C. and Cheah, Erik and Krizek, Filip and Schott, Rüdiger and Cuevas, Juan Carlos and Belzig, Wolfgang and Wegscheider, Werner and Nichele, Fabrizio}
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<dcterms:abstract>Hybrid multiterminal Josephson junctions (JJs) are expected to harbor a novel class of Andreev bound states (ABSs), including topologically nontrivial states in four-terminal devices. In these systems, topological phases emerge when ABSs depend on at least three superconducting phase differences, resulting in a three-dimensional (3D) energy spectrum characterized by Weyl nodes at zero energy. Here, we realize a four-terminal JJ in a hybrid Al/InAs heterostructure, where ABSs form a synthetic 3D band structure. We probe the energy spectrum using tunneling spectroscopy and identify spectral features associated with the formation of a tri-Andreev molecule, a bound state whose energy depends on three superconducting phases and, therefore, is able to host topological ABSs. The experimental observations are well described by a numerical model. The calculations predict the appearance of four Weyl nodes at zero energy within a gap smaller than the experimental resolution. These topological states are theoretically predicted to remain stable within an extended region of the parameter space, well accessible by our device. These findings establish an experimental foundation to study high-dimensional synthetic band structures in multiterminal JJs, and to realize topological Andreev bands.</dcterms:abstract>
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