Graphene based high gain and small size grounded coplanar waveguide feed patch antenna for millimeter wave applications

摘要

Graphene based array antennas are becoming more popular for wireless applications due to their ultra slim structure, versatile nature, flexibility, robustness and other advantages as compared to conventional patch antennas. Small size and high gain coplanar waveguide (CPW) feed single element microstrip patch antenna (MPA), 16 elements array antenna and 32 elements array antenna for millimeter wave applications are presented in this paper. The proposed antenna configurations have been designed and simulated using computer simulation technology (CST). Kapton is used as the dielectric substrate having dielectric constant of 3.5 and thickness of 0.075 mm. Graphene is used in the radiating patch as well as ground plane of the antennas whose electrical conductivity is of 1.4286 × 10^{6S/m2. The thickness of patch and ground plane are of 0.025 mm and 0.05 mm respectively. Each single element antenna has dimension of 1.75×1.5×0.075 mm3and each array configuration consist of corresponding number of same dimensional single elements. The results of all the proposed antenna configurations have been analyzed in terms of return loss, bandwidth, gain, VSWR and radiation efficiency. Among all the proposed antennas and analyzed feeding methods, the grounded coplanar waveguide (GCPW) feed 32 elements array antenna shows the best performance.}