Abstract
An indium-doped tin oxide (ITO) and a fluorine-doped tin oxide (FTO)-based optically transparent U-shaped patch antennas are designed to resonate at 750GHz and their performances are analyzed. Impedance bandwidth, radiation efficiency, directivity and gain of the proposed antennas are investigated. The proposed transparent antenna׳s characteristics are compared with the copper-based non-transparent U-shaped patch antenna, which is also designed to resonate at 750GHz. Terahertz antennas are essential for inter-satellite communications systems to enable the adequate spatial resolution, broad bandwidth, higher data rates and highly directional beam with secured data transfer. The proposed ITO- and FTO-based transparent antennas have yielded impedance bandwidth of 9.54% and 11.49%, respectively, in the band 719–791GHz and 714–801GHz, respectively. The peak gain for ITO and FTO based transparent antennas is 3.35dB and 2.26dB at 732GHz and 801GHz, respectively. The proposed antennas are designed and simulated by using a finite element method based electromagnetic solver, Ansys - HFSS.
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More From: Physica E: Low-dimensional Systems and Nanostructures
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