Polarization-Independent Absorber Based on a Cascaded Metal–Dielectric Grating Structure

Author

Jun Wu ; Changhe Zhou ; Junjie Yu ; Hongchao Cao ; Shubin Li ; Wei Jia

Author_Institution

Lab. of Inf. Opt. & Opto-Electron. Technol., Shanghai Inst. of Opt. & Fine Mech., Shanghai, China

Volume

26

Issue

9

fYear

2014

fDate

1-May-14

Firstpage

949

Lastpage

952

Abstract

The spectrum selective absorption effect of a vertically cascaded metal-dielectric grating structure is studied. A polarization-independent spectrum selective absorber based on two pairs of stacked metal-dielectric grating structures is presented for the infrared frequencies. The near-unity absorption with polarization independence is observed under normal incidence. The understanding of such a perfect selective absorption mechanism is illustrated by investigating the electric field distributions and power loss density at the resonant wavelength. The angle independence is also studied for this absorber and it is found that the absorber can maintain high absorbance around large incident angle range (0° -33° ), especially for the TM polarization.

Keywords

diffraction gratings; infrared spectra; light polarisation; TM polarization; angle independence; electric field distribution; infrared frequency; near-unity absorption; polarization-independent spectrum selective absorber; power loss density; resonant wavelength; spectrum selective absorption effect; stacked metal-dielectric grating structure; vertically cascaded metal-dielectric grating structure; Absorption; Electric fields; Gold; Gratings; Metamaterials; Optimized production technology; Plasmons; Diffraction; gratings; optical resonance; plasmons;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2014.2311045

Filename

6767108