volume | PIER Journals

Abstract

The advancement of wireless communication has led to continuous innovation in antenna technology to satisfy the growing requirement for wireless communication. However, in wireless communication, antennas still face problems and challenges such as high power consumption and low adaptability. To address these issues, this study introduces magneto electric dipoles to optimize broadband millimeter wave patch antennas and uses metasurface optimization patches to ultimately design broadband dual-polarized millimeter wave metasurface antennas. In comparative tests at different temperatures, the gain of the broadband dual-polarization millimeter-wave meta-surface antenna reached a peak of 10.7 dBi at around 35 GHz at -50 ℃. At 0 ℃ and 50 ℃, the gain reached a peak of 10.2 dBi and 8.5 dBi, respectively. The result shows that the designed antenna has high accuracy, gain, and strong stability in wireless communication, and also has certain anti-interference ability in different environments.

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Dr. Luoyong Xiang

Dr. Wen Chen