Design and Fabrication of a C-Band Patch Antenna with Low Loss BaM<sub>4</sub>Si<sub>5</sub>O<sub>17</sub> Microwave Dielectric Ceramics
Zheyu Liu, Kang Du, Chengyun Li, Weiping Gong, Ting Wang, Yiyang Cai, Yaodong Liu, Guochao Wei, Weijia Han, Yi Xiong, Wen Lei, Shengxiang Wang
Abstract
Single-phase BaM 4 Si 5 O 17 (M = Yb, Er, Y, Ho) ceramics have been investigated for their crystal structures, microwave dielectric properties, flexural strength, and potential applications in dielectric antennas. Rietveld refinement and TEM analysis revealed that the BaM 4 Si 5 O 17 ceramics exhibit a monoclinic structure (space groups: P 2 1 / m ). The ε r of the BaM 4 Si 5 O 17 ceramics was dominated by ionic polarizability and ρ rel . The Q × f values were considerably larger at BaM 4 Si 5 O 17 (M = Yb and Y) ceramics with the high U total and low intrinsic dielectric loss. The τ f values were controlled by the MO 6 octahedron distortion and – V Ba . The flexural strength was mainly dominated by pores and average grain size and reached the maximum value (156 MPa) at BaY 4 Si 5 O 17 ceramic with small average gain sizes and high relative density. Additionally, a patch antenna was fabricated using high-performance BaY 4 Si 5 O 17 ceramic characterized by a ε r value of 9.02, a Q × f value of 60620 at 12.30 GHz, and a τ f value of −37.65 ppm/°C. This design achieved a high simulated radiation efficiency of 82.70% and a gain of 5.60 dBi at 6.97 GHz. indicating potential applications of BaY 4 Si 5 O 17 ceramic because of its low dielectric loss and high flexural strength.