Designing multilayered wire‐grid polarizers using a monochromatic recursive convolution finite‐difference time‐domain algorithm

Abstract: Multilayered wire‐grid polarizers (WGP) find application as low‐reflection polarizers in projection‐type liquid crystal display devices. A multilayered WGP is formed by adding thin layers on top of the metal ridges of an ordinary WGP. The ordinary WGP consists of a periodic array of parallel metal ridges, where the period of the array and the width of any individual metal ridge are typically less than the wavelength of the incident light. Such WGPs are often used as efficient polarizers. However, in certain ap… Show more

“…Specifically, the orthogonal microvilli array [23] within rhabdomere plays an important role in polarisation detection in two orthogonal directions. Due to manufacturing limitations, this study used a bionic model of Si nanowire grids simulated by the finitedifference time-domain [24] method. The feasibility of the bionic orthogonal polarisation detection model was verified by theory and simulation.…”

A bio-inspired model for bidirectional polarisation detection

“…Specifically, the orthogonal microvilli array [23] within rhabdomere plays an important role in polarisation detection in two orthogonal directions. Due to manufacturing limitations, this study used a bionic model of Si nanowire grids simulated by the finitedifference time-domain [24] method. The feasibility of the bionic orthogonal polarisation detection model was verified by theory and simulation.…”

A bio-inspired model for bidirectional polarisation detection