Litcius/Paper detail

Double Busbar Structure for Transverse Energy Leakage and Resonance Suppression in Surface Acoustic Wave Resonators Using 42°YX-Lithium Tantalate Thin Plate

Yiwen He, Yu-Po Wong, Qi Liang, Ting Wu, Jingfu Bao, Ken-Ya Hashimoto

2022IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control59 citationsDOI

Abstract

This article describes a new transverse edge structure with double busbar for surface acoustic wave (SAW) devices employing a 42°YX-lithium tantalate thin plate such as incredible high-performance (I.H.P.) SAW. This design offers good energy confinement and scattering loss suppression for a wide frequency range. First, preexisting transverse edge designs are reviewed, and their difficulties are pointed out using the dispersion relation for lateral SAW propagation. Then, numerical simulations are performed using the periodic 3-D finite-element method (FEM) powered by the hierarchical cascading technique, and effectiveness of the proposed structure is revealed. In addition, we also provide a possible solution to expand the frequency range giving well energy confinement and demonstrate effectiveness of manipulating the SAW slowness curve shape for transverse mode suppression.

Topics & Concepts

Transverse planeLithium tantalateBusbarMaterials scienceResonatorOpticsSurface acoustic waveAcousticsSlownessLeakage (economics)Acoustic dispersionSurface waveScatteringAcoustic waveInsertion lossFrequency responseTransverse modeResonance (particle physics)Energy (signal processing)Interdigital transducerTransverse waveDispersion relationEnhanced Data Rates for GSM EvolutionCladding (metalworking)Dispersion (optics)Range (aeronautics)AntiresonanceSurface acoustic wave sensorAcoustic Wave Resonator TechnologiesAcoustic Wave Phenomena ResearchUltrasonics and Acoustic Wave Propagation