Abstract
A reconfigurable metamaterial for 5G application has been presented in this paper. The proposed structure is designed by the resonator with splits and an I-shape inner metal bar is connected with the ring resonator printed on an epoxy resin fiber material. A finite integration technique based electromagnetic simulator CST Microwave Studio has been used to design, simulation, and analysis purposes. The designed metamaterial exhibits resonance peaks at, 33.21, 39.89, 42.27, 45.86, and 48.41 GHz, respectively. Finally, the performances of the effective medium parameters at different switching state have been discussed for understanding the reconfigurable characteristics of the designed metamaterial.