Topological photon pairs in a superconducting quantum metamaterial

Recent discoveries in topological physics hold a promise for disorder-robust quantum systems and technologies. Topological states provide the crucial ingredient of such systems featuring increased robustness to disorder and imperfections. Here, we use an array of superconducting qubits to engineer a...

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Published inarXiv.org
Main Authors Besedin, Ilya S, Gorlach, Maxim A, Abramov, Nikolay N, Tsitsilin, Ivan, Moskalenko, Ilya N, Dobronosova, Alina A, Moskalev, Dmitry O, Matanin, Alexey R, Smirnov, Nikita S, Rodionov, Ilya A, Poddubny, Alexander N, Ustinov, Alexey V
Format Paper Journal Article
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 23.06.2020
Subjects
Anharmonicity
Arrays
Elementary excitations
Excitation spectra
Metamaterials
Photons
Physics - Mesoscale and Nanoscale Physics
Physics - Quantum Physics
Qubits (quantum computing)
Superconductivity
Topology
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Summary:Recent discoveries in topological physics hold a promise for disorder-robust quantum systems and technologies. Topological states provide the crucial ingredient of such systems featuring increased robustness to disorder and imperfections. Here, we use an array of superconducting qubits to engineer a one-dimensional topologically nontrivial quantum metamaterial. By performing microwave spectroscopy of the fabricated array, we experimentally observe the spectrum of elementary excitations. We find not only the single-photon topological states but also the bands of exotic bound photon pairs arising due to the inherent anharmonicity of qubits. Furthermore, we detect the signatures of the two-photon bound edge-localized state which hints towards interaction-induced localization in our system. Our work demonstrates an experimental implementation of the topological model with attractive photon-photon interaction in a quantum metamaterial.
ISSN:2331-8422
DOI:10.48550/arxiv.2006.12794