Optical Möbius Symmetry in Metamaterials | Zendy

Chih-Wei Chang | Zendy; Ming Liu | Zendy; Sunghyun Nam | Zendy; Shuang Zhang | Zendy; Yongmin Liu | Zendy; Guy Bartal | Zendy; Xiang Zhang | Zendy

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Optical Möbius Symmetry in Metamaterials

Author(s) -

Chih-Wei Chang,

Ming Liu,

Sunghyun Nam,

Shuang Zhang,

Yongmin Liu,

Guy Bartal,

Xiang Zhang

Publication year - 2010

Publication title -

physical review letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.688

H-Index - 673

eISSN - 1079-7114

pISSN - 0031-9007

DOI - 10.1103/physrevlett.105.235501

Subject(s) - metamaterial , symmetry (geometry) , physics , topology (electrical circuits) , sign (mathematics) , coupling (piping) , transformation optics , photonic metamaterial , split ring resonator , condensed matter physics , theoretical physics , quantum mechanics , materials science , geometry , mathematics , mathematical analysis , combinatorics , metallurgy

We experimentally observed a new topological symmetry in optical composites, namely, metamaterials. While it is not found yet in nature materials, the electromagnetic Möbius symmetry discovered in metamaterials is equivalent to the structural symmetry of a Möbius strip, with the number of twists controlled by the sign change of the electromagnetic coupling between the meta-atoms. We further demonstrate that metamaterials with different coupling signs exhibit resonance frequencies that depend only on the number but not the locations of the "twists," thus confirming its topological nature. The new topological symmetry found in metamaterials may enable unique functionalities in optical materials.

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