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Helicity-dependent metasurfaces employing receiver-transmitter meta-atoms for full-space wavefront manipulation

Haisheng Hou, Guangming Wang, Haipeng Li, Wenlong Guo, Tong Cai

2020Optics Express33 citationsDOIOpen Access PDF

Abstract

Manipulating orthogonal circularly polarized (CP) waves independently in both reflection and transmission modes in a single metasurface is pivotal. However, independently controlling CP waves with different polarizations is difficult especially for both reflection and transmission modes. Here, we designed a receiver-transmitter metasurface with helicity-dependent reflection and transmission properties. Our design breaks the fixed phases of the geometry metasurface-carrying Pancharatnam-Berry operators by combining the receive and transmit antennas. To verify the effectiveness of the modulation, we designed three linear deflectors with: (a) reflection phase gradient, (b) transmission phase gradient, and (c) both of gradients to achieve anomalous reflection, anomalous refraction, and simultaneous anomalous reflection and refraction, respectively. As proof of the concept, a bifunctional meta-device with functions of anomalous reflection and focusing transmission for different incident CP waves was simulated and measured. Our findings offer an easy strategy for achieving arbitrary bifunctional CP devices.

Topics & Concepts

OpticsReflection (computer programming)WavefrontTransmitterPhysicsTransmission (telecommunications)RefractionHelicityPhase (matter)Phase conjugationNegative refractionMetamaterialComputer scienceTelecommunicationsParticle physicsProgramming languageQuantum mechanicsChannel (broadcasting)LaserMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesAntenna Design and Analysis
Helicity-dependent metasurfaces employing receiver-transmitter meta-atoms for full-space wavefront manipulation | Litcius