Open AccessDesign of Reconfigurable Micro fluidic Met surface with Different Semiconductor Alloys
Author(s) -
Ahmed A. AlGhamdi,
Jawad Yousaf,
Ali Yahyaoui,
Nebras Sobahi,
Hatem Rmili
Publication year - 2021
Publication title -
international journal of mathematics and computer research
Language(s) - English
Resource type - Journals
ISSN - 2320-7167
DOI - 10.47191/ijmcr/v9i11.01
Subject(s) - multiphysics , materials science , reflection (computer programming) , microfluidics , dielectric , substrate (aquarium) , fluidics , optoelectronics , semiconductor , transmission (telecommunications) , channel (broadcasting) , electronic engineering , optics , nanotechnology , electrical engineering , computer science , engineering , physics , oceanography , structural engineering , finite element method , geology , programming language
In this work, design of a reconfigurable metasurface using all-dielectric materials is presented. An elliptical all-dielectric microfluidic-based metasurface is designed using Rogers RO3210 substrate (ε = 10.2 and tan δ = 0.03). The substrate is covered with microfluidic channel which is filled with five various AgTiTe2, Cu2S, Te.5 Se.5, CuTSe2 and Cu3SbSe4. semiconductor alloys. The reflection and transmission characteristics of the designed metasurface are analyzed in the frequency range of 20-30 GHz using COMSOL Multiphysics software. The results demonstrate that change in the semiconductor alloy in the microfluidic channel various the dynamic transmission and reflection characteristics of the metasurface and thus depicts a reconfigurable operation of the proposed design.