Title :
Acoustic loss mechanisms in leaky SAW resonators on lithium tantalate
Author :
Koskela, Julius ; Knuuttila, Jouni V. ; Makkonen, Tapani ; Plessky, Victor P. ; Salomaa, Martti M.
Author_Institution :
Mater. Phys. Lab., Helsinki Univ. of Technol., Hut, Finland
Abstract :
Discusses acoustic losses in synchronous leaky surface acoustic wave (LSAW) resonators on rotated Y-cut lithium tantalate (LiTaO/sub 3/) substrates. Laser probe measurements and theoretical models are employed to identify and characterize the radiation of leaky waves into the busbars of the resonator and the excitation of bulk acoustic waves. Escaping LSAWs lead to a significant increase in the conductance, typically occurring in the vicinity of the resonance and in the stopband, but they do not explain the experimentally observed deterioration of the electrical response at the antiresonance. At frequencies above the stopband, the generation of fast shear bulk acoustic waves is the dominant loss mechanism.
Keywords :
lithium compounds; measurement by laser beam; surface acoustic wave resonators; ultrasonic propagation; LiTaO/sub 3/; acoustic loss mechanisms; antiresonance electrical response; busbars; fast shear bulk acoustic waves; laser probe measurements; loss mechanism; rotated Y-cut substrates; synchronous leaky SAW resonators; Acoustic measurements; Acoustic waves; Frequency; Laser excitation; Laser modes; Laser theory; Lithium compounds; Probes; Resonance; Surface acoustic waves;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
