Title :
Phononic SAW transducers with complete frequency bandgap characteristics
Author :
Yantchev, Ventsislav ; Plessky, V.
Author_Institution :
Dept. Solid State Electron., Uppsala Univ., Uppsala, Sweden
Abstract :
2D composite grating building blocks with hexagonal symmetry are proposed and analyzed as efficient reflectors and transducers in the design of low loss surface acoustic wave (SAW) resonators. Eigen-frequency and frequency response finite element analyses (FEA) are used to study the propagation and excitation characteristics of SAWs in the 2D composite structures. The proposed structures have the advantage of being compatible with the planar SAW technology, while exhibiting a complete frequency bandgap. Three distinct types SAW phononic transducers are here invented and their operation confirmed both analytically and experimentally. The proposed research paves the way for subsequent implementation of the phononic bandgap technology in high performance micro-acoustic RF components.
Keywords :
acoustic wave propagation; composite materials; energy gap; finite element analysis; surface acoustic wave resonators; surface acoustic wave transducers; 2D composite grating building block; FEA; SAW phononic transducer; SAW resonator; eigenfrequency response; excitation characteristics; finite element analyses; frequency bandgap characteristics; hexagonal symmetry; microacoustic RF component; phononic bandgap technology; planar SAW technology; propagation characteristics; reflector; surface acoustic wave resonator; Crystals; Optical surface waves; Photonic band gap; Resonant frequency; Surface acoustic waves; Transducers; MEMS; high frequency; phononic; resonator;
Conference_Titel :
Frequency Control Symposium (FCS), 2014 IEEE International
Conference_Location :
Taipei
DOI :
10.1109/FCS.2014.6859984
