Experimental demonstration of topological effects in bianisotropic metamaterials

Alexey P. Slobozhanyuk; Alexander B. Khanikaev; Dmitry S. Filonov; Daria A. Smirnova; Andrey E. Miroshnichenko; Yuri S. Kivshar

doi:10.1038/srep22270

Experimental demonstration of topological effects in bianisotropic metamaterials

Alexey P. Slobozhanyuk, Alexander B. Khanikaev, Dmitry S. Filonov, Daria A. Smirnova, Andrey E. Miroshnichenko, Yuri S. Kivshar^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

76 Citations (Scopus)

Abstract

Existence of robust edge states at interfaces of topologically dissimilar systems is one of the most fascinating manifestations of a novel nontrivial state of matter, a topological insulator. Such nontrivial states were originally predicted and discovered in condensed matter physics, but they find their counterparts in other fields of physics, including the physics of classical waves and electromagnetism. Here, we present the first experimental realization of a topological insulator for electromagnetic waves based on engineered bianisotropic metamaterials. By employing the near-field scanning technique, we demonstrate experimentally the topologically robust propagation of electromagnetic waves around sharp corners without backscattering effects.

Original language	English
Article number	22270
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep22270
Publication status	Published - 3 Mar 2016

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title = "Experimental demonstration of topological effects in bianisotropic metamaterials",

abstract = "Existence of robust edge states at interfaces of topologically dissimilar systems is one of the most fascinating manifestations of a novel nontrivial state of matter, a topological insulator. Such nontrivial states were originally predicted and discovered in condensed matter physics, but they find their counterparts in other fields of physics, including the physics of classical waves and electromagnetism. Here, we present the first experimental realization of a topological insulator for electromagnetic waves based on engineered bianisotropic metamaterials. By employing the near-field scanning technique, we demonstrate experimentally the topologically robust propagation of electromagnetic waves around sharp corners without backscattering effects.",

author = "Slobozhanyuk, {Alexey P.} and Khanikaev, {Alexander B.} and Filonov, {Dmitry S.} and Smirnova, {Daria A.} and Miroshnichenko, {Andrey E.} and Kivshar, {Yuri S.}",

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AU - Slobozhanyuk, Alexey P.

AU - Khanikaev, Alexander B.

AU - Filonov, Dmitry S.

AU - Smirnova, Daria A.

AU - Miroshnichenko, Andrey E.

AU - Kivshar, Yuri S.

PY - 2016/3/3

Y1 - 2016/3/3

N2 - Existence of robust edge states at interfaces of topologically dissimilar systems is one of the most fascinating manifestations of a novel nontrivial state of matter, a topological insulator. Such nontrivial states were originally predicted and discovered in condensed matter physics, but they find their counterparts in other fields of physics, including the physics of classical waves and electromagnetism. Here, we present the first experimental realization of a topological insulator for electromagnetic waves based on engineered bianisotropic metamaterials. By employing the near-field scanning technique, we demonstrate experimentally the topologically robust propagation of electromagnetic waves around sharp corners without backscattering effects.

AB - Existence of robust edge states at interfaces of topologically dissimilar systems is one of the most fascinating manifestations of a novel nontrivial state of matter, a topological insulator. Such nontrivial states were originally predicted and discovered in condensed matter physics, but they find their counterparts in other fields of physics, including the physics of classical waves and electromagnetism. Here, we present the first experimental realization of a topological insulator for electromagnetic waves based on engineered bianisotropic metamaterials. By employing the near-field scanning technique, we demonstrate experimentally the topologically robust propagation of electromagnetic waves around sharp corners without backscattering effects.

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JF - Scientific Reports

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Experimental demonstration of topological effects in bianisotropic metamaterials

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