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Giant nonreciprocal transmission in low-biased gyrotropic metasurfaces

Na Liu, Jia Zhao, Liuge Du, Chuanning Niu, Chonglei Sun, Xiangpeng Kong, Zuojia Wang, Xun Li

2020Optics Letters22 citationsDOI

Abstract

Strong magneto-optical effect with low external magnetic field is of great importance to achieve high-performance isolators in modern optics. Here, we experimentally demonstrate a significant enhancement of the magneto-optical effect and nonreciprocal chiral transmission in low-biased gyrotropic media. A designer magneto-optical metasurface consists of a gyrotropy-near-zero slab doped with magnetic resonant inclusions. The immersed magnetic dopants enable efficient nonreciprocal light-matter interactions at the subwavelength scale, providing a giant macroscopic nonreciprocity and strong robustness against the bias disturbance. Microwave measurements reveal that the metasurface can act as a chiral isolator for circular polarization, with extremely weak intrinsic gyromagnetic activity. We also demonstrate its capability of signal isolation for circularly polarized antennas. Our findings provide an experimental verification of nonreciprocal photonic doping with low static magnetic fields.

Topics & Concepts

PhysicsOpticsMagnetic fieldPolarization (electrochemistry)Circular polarizationOptical isolatorPhotonicsMicrowaveMetamaterialOptoelectronicsOptical fiberChemistryQuantum mechanicsMicrostripPhysical chemistryMagneto-Optical Properties and ApplicationsMetamaterials and Metasurfaces ApplicationsQuantum optics and atomic interactions
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