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- Title
Mie‐Resonant Membrane Huygens' Metasurfaces.
- Authors
Yang, Quanlong; Kruk, Sergey; Xu, Yuehong; Wang, Qingwei; Srivastava, Yogesh Kumar; Koshelev, Kirill; Kravchenko, Ivan; Singh, Ranjan; Han, Jiaguang; Kivshar, Yuri; Shadrivov, Ilya
- Abstract
All‐dielectric metasurfaces have become a new paradigm for flat optics as they allow flexible engineering of the electromagnetic space of propagating waves. Such metasurfaces are usually composed of individual subwavelength elements embedded into a host medium or placed on a substrate, which often diminishes the quality of the resonances. The substrate imposes limitations on the metasurface functionalities, especially for infrared and terahertz frequencies. Here a novel concept of membrane Huygens' metasurfaces is introduced. The metasurfaces feature an inverted design, and they consist of arrays of holes made in a thin membrane of high‐index dielectric material, with the response governed by the electric and magnetic Mie resonances excited within dielectric domains of the membrane. Highly efficient transmission combined with the 2π phase coverage in the freestanding membranes is demonstrated. Several functional metadevices for wavefront control are designed, including beam deflector, a lens, and an axicon. Such membrane metasurfaces provide novel opportunities for efficient large‐area metadevices, whose advanced functionality is defined by structuring rather than by chemical composition.
- Subjects
MIE-ken (Japan); DIELECTRIC materials; MAGNETIC resonance; OPTICS; SUBMILLIMETER waves; INFRARED absorption; MIE scattering; RESONANCE
- Publication
Advanced Functional Materials, 2020, Vol 30, Issue 4, pN.PAG
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.201906851