Abstract :
Although surface acoustic wave (SAW) devices using quartz and LiNbO3 have proven highly successful, manufacturability would be considerably eased if SAW devices could be readily integrated with semiconductor devices. In a recent paper, Lee et al. proposed Mg-doped epitaxial GaN as suitable for SAW devices integrated with other III-V materials. The piezoelectric constant, or electromechanical coupling factor (k2), is one important parameter determining the acoustic behavior of a material. A large k2 eases the design of wide-bandwidth low-loss SAW transducers. The piezoelectric constants are also of great interest in the design of strained-layer devices. For Mg-doped GaN, Lee et al. found k2 = (4.3 plusmn 0.3)%. If confirmed, this would represent one of the highest values of k2 ever reported, and would revolutionize the design of acoustic devices integrated with III-V materials, since other III-V materials have much smaller k2. For example, GaAs has k2 = 0.04%
Keywords :
III-V semiconductors; gallium compounds; lithium compounds; magnesium; piezoelectric materials; quartz; surface acoustic wave transducers; wide band gap semiconductors; GaN:Mg; III-V materials; LiNbO3; SAW transducers; electromechanical coupling factor; piezoelectric constant; surface acoustic wave devices; Acoustic devices; Acoustic materials; Acoustic waves; Gallium nitride; III-V semiconductor materials; Piezoelectric materials; Semiconductor device manufacture; Semiconductor devices; Surface acoustic wave devices; Surface acoustic waves;
