Design and Fabrication of a Satellite Communication Dielectric Resonator Antenna with Novel Low Loss and Temperature-Stabilized (Sm1–x Ca x ) (Nb1–x Mo x )O4 (x = 0.15–0.7) Microwave Ceramics

Phase transition–structure–dielectric properties in microwave band correlations were determined for the (Sm1–x Ca x ) (Nb1–x Mo x )­O4 (SNCMo@x) system. X-ray and Raman analyses along with selected-area electron diffraction indicated that SNCMo@x (0.15 ≤ x < 0.375) ceramics crystallize in the I2/...

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Bibliographic Details
Published in:Chemistry of materials 2023-01, Vol.35 (1), p.104-115
Main Authors: Wu, Fangfang, Zhou, Di, Du, Chao, Xu, Di-Ming, Li, Rui-Tao, Shi, Zhong-Qi, Darwish, Moustafa A., Zhou, Tao, Jantunen, Heli
Format: Article
Language:English
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Summary:Phase transition–structure–dielectric properties in microwave band correlations were determined for the (Sm1–x Ca x ) (Nb1–x Mo x )­O4 (SNCMo@x) system. X-ray and Raman analyses along with selected-area electron diffraction indicated that SNCMo@x (0.15 ≤ x < 0.375) ceramics crystallize in the I2/a space group (monoclinic fergusonite), whereas the I41/a space group (tetragonal scheelite) best describes SNCMo@x (0.375 ≤ x ≤ 0.7), suggesting that the increased ionic radius of the A-site effectively contributed to the ferroelastic phase transition and ensures the stability of the scheelite phase. The SNCMo@x ceramic materials exhibit composition-dependent permittivity (εr) with a distribution between 12.0 and 17.7. The distortion and deformation of the [BO] polyhedra should be responsible for the shift from negative to positive temperature coefficient of resonant frequency (TCF) and the irregular behavior of the quality factor (Q × f). An optimum microwave dielectric performance was achieved for SNCMo@0.18 (εr ∼ 17.1, Q × f ∼ 52, 800 GHz at ∼8.80 GHz, and TCF ∼ −1.4 ppm/°C). This work demonstrates the important role of simultaneous substitution of A/B cations on [BO] polyhedral distortion and deformation in RENbO4 materials and its significant effect on the microwave dielectric properties. Also, the SNCMo@0.18 ceramic has been designed as a cylindrical dielectric resonator antenna with a high simulated radiation efficiency (97.1%) and gain (5.96 dBi) at the center frequency (7.75 GHz), indicating its promising application in X-band satellite communication (7.62–7.89 GHz) because of its adjustable permittivity, low loss, and good temperature stability.
ISSN:0897-4756
1520-5002
DOI:10.1021/acs.chemmater.2c02663