Title :
Broadband Polarizers Using Dual-Layer Metallic Nanowire Grids
Author :
Yang, Z.Y. ; Zhao, M. ; Dai, N.L. ; Yang, G. ; Long, H. ; Li, Y.H. ; Lu, P.X.
Author_Institution :
Huazhong Univ. of Sci. & Technol., Wuhan
fDate :
5/1/2008 12:00:00 AM
Abstract :
Broadband polarizers functioning in an extremely wide wavelength range from 0.3 to 5 mum were developed based on structural design and numerical simulation. By properly selecting the dual-layer nanowire grids including metal materials, grid periods, grid thicknesses, and substrate materials, broadband polarizers could be developed to realize high optical performance. We proposed a broadband polarizer using aluminum nanowire grids on a magnesium fluoride substrate with 80-nm square grids. The proposed polarizer can reach an extinction ratio from 47 to 70 dB and a transmission efficiency from 38% to 94% in the wide wavelength range.
Keywords :
aluminium; finite difference time-domain analysis; light transmission; nanowires; optical design techniques; optical polarisers; Al; FDTD method; aluminum nanowire grids; broadband polarizers; dual-layer nanowire grids; efficiency 38 percent to 94 percent; extinction ratio; finite-difference time-domain method; grid periods; grid thicknesses; magnesium fluoride substrate; metal materials; substrate materials; transmission efficiency; wavelength 0.3 mum to 5 mum; Finite difference methods; Geometrical optics; Inorganic materials; Numerical simulation; Optical devices; Optical fiber networks; Optical fiber polarization; Optical materials; Optical polarization; Wire; Gratings; nanotechnology; optical polarization; polarization; wire;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2008.919581
