A Polarization Insensitive Wide‐Band Perfect Absorber

Abstract

In this article, a wide‐band and polarization‐insensitive perfect absorber composed of 4 sandwiched layers of dielectric and metal disks is introduced. Compared to classical perfect absorbers, the system supports near‐unity absorption within a wider spectral window through multiple perfect absorption mechanisms that exist due to a constituting inter‐metal disk, functioning either as a dipolar antenna or a conducting ground for different perfect absorption mechanisms. Circular shape of the antenna makes the working mechanism of the system polarization insensitive. The working principle of the system is investigated through near‐ and far‐field calculations by finite difference time domain (FDTD) simulations. A fine‐tuning mechanism of the wide‐range perfect absorption window is introduced through geometrical device parameters. The multilayer perfect absorber system is fabricated through a high‐quality fabrication method based on electron beam lithography, lift‐off method, and multi‐step deposition of metal and dielectric layers. The spectral behavior of the perfect absorber system is finally experimentally investigated through Fourier transform infrared (FTIR) spectroscopy.