Diodelike asymmetric transmission of linearly polarized waves using magnetoelectric coupling and electromagnetic wave tunneling
Date
2012-05-24
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Source Title
Physical Review Letters
Print ISSN
0031-9007
Electronic ISSN
Publisher
American Physical Society
Volume
108
Issue
21
Pages
213905-1 - 213905-5
Language
English
Type
Journal Title
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Volume Title
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Abstract
An asymmetric, reciprocal, diffraction-free transmission of linearly polarized waves in a new diodelike, three-layer, ultrathin, chiral structure is studied theoretically and experimentally. The exploited physical mechanism is based on the maximization of the cross-polarized transmission in one direction due to the polarization selectivity dictated by the peculiar eigenstate combination, which is efficiently controlled by the electromagnetic tunneling through the metallic subwavelength mesh sandwiched between these layers. Simulation and microwave experiment results demonstrate a nearly total intensity transmission at normal incidence in one direction and a small intensity transmission in the opposite direction.
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Keywords
Asymmetric transmissions, Chiral structures, Cross-polarized, Eigen state, Electromagnetic-wave tunneling, Linearly polarized, Magnetoelectric couplings, Microwave experiments, Normal incidence, Physical mechanism, Polarization-selectivity, Sub-wavelength, Three-layer, Ultra-thin, Atomic physics, Physics