Emulating quantum photon-photon interactions in waveguides by double-wire media

Emulating quantum photon-photon interactions in waveguides by double-wire media

Arrays of atoms coupled to photons propagating in a waveguide are now actively studied due to their prospects for generation and detection of quantum light. Quantum simulators based on waveguides with long-range couplings were also predicted to manifest unusual many-body quantum states. However, qua...

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Published in:Photonics and nanostructures Vol. 53; p. 101104
Main Authors: Koreshin, Eugene A., Sakhno, Denis I., Olekhno, Nikita A., Poddubny, Alexander N., Belov, Pavel A.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-02-2023
Subjects:
Metamaterial
Polaritons
QWED
Wire media
Polaritons
QWED
Wire media
Metamaterial
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Abstract Arrays of atoms coupled to photons propagating in a waveguide are now actively studied due to their prospects for generation and detection of quantum light. Quantum simulators based on waveguides with long-range couplings were also predicted to manifest unusual many-body quantum states. However, quantum tomography for large arrays with N ≳ 20 atoms remains elusive since it requires independent access to every atom. Here, we present a novel concept for analog emulation of such systems by unveiling an analogy between the setup of waveguide quantum electrodynamics and the classical problem of an electromagnetic wave propagating in a wire metamaterial. Experimentally measuring near electromagnetic fields, we emulate the two-particle localization arising from polariton-polariton interactions in the quantum problem. Our results demonstrate the potential of wire metamaterials to visualize quantum light-matter coupling in a table-top experiment and may be applied to emulate other exotic quantum effects, such as quantum chaos, and self-induced topological states. •localisation.•quantum-classical correspondence.•near-field mapping.•hyperbolic iso contours.
AbstractList Arrays of atoms coupled to photons propagating in a waveguide are now actively studied due to their prospects for generation and detection of quantum light. Quantum simulators based on waveguides with long-range couplings were also predicted to manifest unusual many-body quantum states. However, quantum tomography for large arrays with N ≳ 20 atoms remains elusive since it requires independent access to every atom. Here, we present a novel concept for analog emulation of such systems by unveiling an analogy between the setup of waveguide quantum electrodynamics and the classical problem of an electromagnetic wave propagating in a wire metamaterial. Experimentally measuring near electromagnetic fields, we emulate the two-particle localization arising from polariton-polariton interactions in the quantum problem. Our results demonstrate the potential of wire metamaterials to visualize quantum light-matter coupling in a table-top experiment and may be applied to emulate other exotic quantum effects, such as quantum chaos, and self-induced topological states. •localisation.•quantum-classical correspondence.•near-field mapping.•hyperbolic iso contours.
ArticleNumber 101104
Author Sakhno, Denis I.
Koreshin, Eugene A.
Olekhno, Nikita A.
Belov, Pavel A.
Poddubny, Alexander N.
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  organization: ITMO University, 197101Saint Petersburg, Russia
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Snippet Arrays of atoms coupled to photons propagating in a waveguide are now actively studied due to their prospects for generation and detection of quantum light....
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SubjectTerms Metamaterial
Polaritons
QWED
Wire media
Title Emulating quantum photon-photon interactions in waveguides by double-wire media
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