Laser fabrication of perfect absorbers

V. Mizeikis; I. Faniayeu

doi:10.1117/12.2287227

2 January 2018 Laser fabrication of perfect absorbers

V. Mizeikis, I. Faniayeu

Author Affiliations +

Proceedings Volume 10456, Nanophotonics Australasia 2017; 1045620 (2018) https://doi.org/10.1117/12.2287227
Event: SPIE Nanophotonics Australasia, 2017, Melbourne, Australia

Abstract

We describe design and characterization of electromagnetic metasurfaces consisting of sub-wavelength layers of artificially structured 3D metallic elements arranged into two-dimensional arrays. Such metasurfaces allow novel ways to control propagation, absorption, emission, and polarization state of electromagnetic waves, but their practical realization using traditional planar micro-/nano-fabrication techniques is extremely difficult at infra- red frequencies, where unit cell size must be reduced to few micrometers. We have addressed this challenge by using femtosecond direct laser write (DLW) technique as a high-resolution patterning tool for the fabrication of dielectric templates, followed by a simple metallization process. Functional metasurfaces consisting of metallic helices and vertical split-ring resonators that can be used as perfect absorbers and polarization converters at infra- red frequencies were obtained and characterized experimentally and theoretically. In the future they may find applications in narrow-band infra-red detectors and emitters, spectral filters, and combined into multi-functional, multi-layered structures.

Citation Download Citation

V. Mizeikis and I. Faniayeu "Laser fabrication of perfect absorbers", Proc. SPIE 10456, Nanophotonics Australasia 2017, 1045620 (2 January 2018); https://doi.org/10.1117/12.2287227

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