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PIER PIER B PIER C PIER M PIER Letters
2025-02-25
Anomalous Reflection from Hyperbolic Media
By
Ilya Deriy,

    Dr. Ilya Deriy

    Harbin Engineering University

    China

    Homepage

Kseniia Lezhennikova,

    Dr. Kseniia Lezhennikova

    Institut Fresnel Institut Marseille Imaging

    France

    Homepage

Stanislav B. Glybovski,

    Dr. Stanislav B. Glybovski

    Independent Researcher

    Homepage

Ivan Iorsh,

    Dr. Ivan Iorsh

    Queen's University

    Canada

    Homepage

Oleh Y. Yermakov,

    Dr. Oleh Y. Yermakov

    Leibniz Institute of Photonic Technology

    Germany

    Homepage

Mingzhao Song,

    Mr. Mingzhao Song

    Harbin Engineering University

    China

    Homepage

Redha Abdeddaim,

    Dr. Redha Abdeddaim

    ESPCI

    France

    Homepage

Stefan Enoch,

    Dr. Stefan Enoch

    Faculte des Sciences et Techniques

    Institut Fresnel, UMR CNRS 6133

    France

    Homepage

Pavel A. Belov,

    Dr. Pavel A. Belov

    School of Engineering

    New Uzbekistan University

    Uzbekistan

    Homepage

Andrey A. Bogdanov

    Prof. Andrey A. Bogdanov

    Qingdao Innovation and Development Center of Harbin Engineering University

    Harbin Engineering University

    China

    Homepage

Progress In Electromagnetics Research, Vol. 182, 85-94, 2025
doi:10.2528/PIER24121702
Abstract
Despite the apparent simplicity, the problem of refraction of electromagnetic waves at the planar interface between two media has an incredibly rich spectrum of unusual phenomena. An example is the paradox when an electromagnetic wave impinges on the interface between a hyperbolic medium and an isotropic dielectric. At specific orientations of the optical axis of the hyperbolic medium relative to the interface, the reflected and transmitted waves can can disappear entirely, which contradicts reciprocity. In this paper, we analyze the above mentioned paradox and present its resolution by introducing infinitesimal losses in the hyperbolic medium. We show that the reflected wave exists but becomes ultimately localized at the interface when the losses become vanishing. Consequently, all the energy scattered into the reflected channel is absorbed near the interface. We support our reasoning with analytical calculations, numerical simulations, and an experiment with self-complementary metasurfaces in the microwave range.
Citation
Ilya Deriy, Kseniia Lezhennikova, Stanislav B. Glybovski, Ivan Iorsh, Oleh Y. Yermakov, Mingzhao Song, Redha Abdeddaim, Stefan Enoch, Pavel A. Belov, and Andrey A. Bogdanov, "Anomalous Reflection from Hyperbolic Media," Progress In Electromagnetics Research, Vol. 182, 85-94, 2025.
doi:10.2528/PIER24121702
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