A Meta Surface Based Patch Antenna for Wireless Space Craft 5G Communication Systems

In recent years, as per the modern technology and expansion, wireless sensor-based spacecraft design techniques are being used to detect the geometric parameters of humans, becoming a future of innovative research. The meta surface is a two-dimensional periodic structure intended to interact with electromagnetic waves for the control of the presentation of an antenna. The radiating properties of the meta surface-based antenna could easily assess the performance of 5G and space crafts. The operating range of the antenna would be in the band of 5G to fulfill the expected performance of the radiator which is being designed. Meanwhile, the meta surface can restrict the electric and magnetic dipoles functions to interact with the studied antenna. Moreover, the dielectric structured meta surface material having a high refractive index for the detection of wireless sensor systems. In this article, we are going to existing a dielectric FR4 epoxy structure-based meta surface patch antenna to highlight that the proposed radiator has a highest reflection coefficient of – 40 dB, with a valued gain of 7 dBi and a specified bandwidth at different resonating bands. Our results demonstrate that the meta surface has a promising ultra-sensitive qualitative exposure in chemical and temperature sensing, also had a low profile along with size of 0.71λ0x0.71λ0x0.03λ0 which were measured and fabricated.