Multichannel full-space coding metasurface with linearly-circularly-polarized wavefront manipulation

Author:

Luo Huiling1,Gao Huanhuan1,Wang Yanzhao1,Wang Chaohui1ORCID,Zhang Fan1ORCID,Shao Yanzhang1,Liu Tong1,Wang Zhengjie1,Xu He-Xiu1ORCID

Affiliation:

1. Air and Missile Defense College , Air Force Engineering University , Xi’an 710051 , China

Abstract

Abstract Achieving independent multitasked wavefront control by using an ultrathin plate is a challenge to increase information capacity in integration optics and radar applications. Transmission-reflection-integrated metasurface provides an efficient recipe primarily for multifunctional meta-device, however it is challenging to synergize both linear polarization (LP) and circular polarization (CP) using a single meta-plate. Here, a multichannel full-space coding metasurface composed of interleaved shared-aperture meta-atom is proposed to achieve large information capacity by capsulating judiciously engineered high efficiency triple sub-elements (modes) in four-layer scheme. By rotating dual-gap split ring resonator and varying size of “L” type structure insulating by a metallic ring with electrostatic-analogue shielding effect, both Pancharatnam–Berry (PB) and dynamic phases are independently realized under CP and LP waves, respectively. Such an extraordinary insulating strategy completely suppresses crosstalk among three modes and unprecedentedly increases the capability in yielding kaleidoscopic wavefront control. To verify the significance, a proof-of-concept metadevice is devised and experimentally demonstrated with tri-channel wavefront manipulations, exhibiting reflective dual-vortex beam and Bessel beam for forward and backward CP wave, respectively at high frequency, while transmissive polarization beam splitting for 45°-LP wave at low frequency. Our finding in polarization-direction multiplexing is expected to generate great interest in electromagnetic integration with emerging degree of freedoms.

Funder

National Defense Foundation for Distinguished Young Scholars

the Special Talents Support Program of Shaanxi Province for Young Top Talents, and Innovative Talents Cultivate Program for Technology Innovation Team of ShaanXi Province

National Natural Science Foundation of China

Publisher

Walter de Gruyter GmbH

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