D. Branch, C. Nordquist, M. Eichenfield, J. K. Douglas, A. Siddiqui, T. Friedmann
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引用次数: 4
Abstract
Electric field-based frequency tuning of acoustic resonators at the material level provides an enabling technology for building complex tunable filters. Tunable acoustic resonators were fabricated in thin plates (h/$\lambda \sim 0.05)$ of X-cut lithium niobate (90°, 90°, ψ = 170°). Lithium niobate is known for its large electromechanical coupling (SH: K2 40%) and thus applicability for low-insertion loss and wideband filter applications. We demonstrate the effect of a DC bias to shift the resonant frequency by ~ 0.4% by directly tuning the resonator material. The mechanism is based on the nonlinearities that exist in the piezoelectric properties of lithium niobate. Devices centered at 332 MHz achieved frequency tuning of 12 kHz/V through application of a DC bias.
基于电场的材料级声学谐振器频率调谐为构建复杂的可调谐滤波器提供了一种使能技术。在x切割铌酸锂(90°,90°,ψ = 170°)的薄板(h/ $\lambda \sim 0.05)$)上制备了可调谐声学谐振器。铌酸锂以其大型机电耦合(SH: K2 40)而闻名%) and thus applicability for low-insertion loss and wideband filter applications. We demonstrate the effect of a DC bias to shift the resonant frequency by ~ 0.4% by directly tuning the resonator material. The mechanism is based on the nonlinearities that exist in the piezoelectric properties of lithium niobate. Devices centered at 332 MHz achieved frequency tuning of 12 kHz/V through application of a DC bias.
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