Toward mmWave Surface Acoustic Wave Resonators in Lithium Niobate on Silicon Carbide
作者
Tzu-Hsuan Hsu,Lezli Matto,Joshua Campbell,Jack Kramer,Zhi-Qiang Lee,Ian Anderson,Edmond Chow,Mark S. Goorsky,Ming‐Huang Li,Ruochen Lu
出处
期刊:IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control [Institute of Electrical and Electronics Engineers] 日期:2025-09-17卷期号:72 (11): 1522-1532
Recent advancements in next-generation wireless systems have expanded the need for radio frequency front-ends (RFFEs) toward the millimeter-wave (mmWave) range. This work introduces two methods targeting the efficient design of solidly mounted surface acoustic wave (SAW) resonator architectures based on lithium niobate on silicon carbide (LN-on-SiC) heteroacoustic waveguides for mmWave applications. The first method uses a longitudinal SAW (L-SAW) mode in X-cut LN to achieve a high phase velocity of 6500 m/s and a figure of merit (FoM) of 6.53 at 22.42 GHz, enabled by strong acoustic confinement and careful wavelength scaling. The second method presents a novel electrode-guided shear horizontal SAW (EG SH-SAW) mode in Y-cut LN, leveraging electrode design to confine higher order SH modes and mitigate internal stress cancellation. The fabricated EG SH-SAW resonator achieves operation at 23.5 GHz with a coupling coefficient k2 of 1.6% and an FoM of 4.16. Both methods demonstrate resonators successfully scaled toward mmWave range with high Q-factors and open the potential for future solidly mounted frequency-scalable, high-performance acoustic devices in mmWave bands.