Title :
DC bias-dependent shift of the resonance frequencies in BST thin film membranes
Author :
Noeth, Andreas ; Yamada, Tomoaki ; Sherman, Vladimir O. ; Muralt, Paul ; Tagantsev, Alexander K. ; Setter, Nava
Author_Institution :
Swiss Fed. Inst. of Technol. EPFL, Lausanne
fDate :
12/1/2007 12:00:00 AM
Abstract :
Direct current (DC) bias-dependent acoustic resonance phenomena have been observed in microma-chined tunable thin film capacitors based on Ba0.3Sr0.7TiO3 (BST) thin films. The antiresonance frequency is only weakly DC bias dependent, and the resonance frequency exhibits a much stronger dependence on the applied DC bias. The resonance frequency shifted by 1.2% for a frequency of about 6.7 GHz and an applied field of 667 KV/cm. At the same time the effective electromechanical coupling constant k2 t,eff increased to 2.0%. The tuning of the resonance frequency depends on the tunability of the film permittivity and on the mechanical load on the piezoactive layer. The experimental observations correlate well with the theoretical predictions derived from the free energy P expansion using Landau theory.
Keywords :
barium compounds; crystal resonators; dielectric resonance; dielectric resonators; membranes; permittivity; piezoelectric materials; piezoelectric thin films; piezoelectricity; strontium compounds; thin film capacitors; Ba0.3Sr0.7TiO3; Landau theory; antiresonance frequency; direct current bias-dependent acoustic resonance; electromechanical coupling constant; free energy expansion; micromachining; permittivity; piezoactive layer; resonance frequency; thin film membranes; thin film resonator; tunable thin film capacitors; Acoustic devices; Acoustic materials; Binary search trees; Biomembranes; Capacitors; Ferroelectric materials; Piezoelectric films; Resonance; Resonant frequency; Transistors; Acoustics; Ceramics; Electric Impedance; Electrochemistry; Electromagnetic Fields; Equipment Design; Equipment Failure Analysis; Materials Testing; Membranes, Artificial; Reproducibility of Results; Sensitivity and Specificity; Transducers;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
DOI :
10.1109/TUFFC.2007.565
