Title :
The use of yttrium-rare earth aluminium garnet solid solutions for bulk-acoustic-wave (BAW) devices
Author_Institution :
Inst. of Radioeng. & Electron., Acad. of Sci., Moscow, Russia
Abstract :
The isomorphic solid solution of yttrium-rare earth aluminium garnets is suggested as a dielectric material for acoustic waveguides with extremely low acoustic-wave absorption (AWA) at room temperature and for frequencies higher than 10 GHz. The two main mechanisms by which substitutional atoms decrease the bulk AWA are determined. The first one is the decrease in effective lifetime of the thermal phonons resulting in the corresponding reduction of the viscoelastic absorption-this mechanism is important for the shear acoustic waves. The second is more important for longitudinal waves. It is the reduction of Gruneisen constants for solid solution as compared to the crystal matrices.<>
Keywords :
acoustic waveguides; garnets; lutetium compounds; scandium compounds; ultrasonic absorption; ultrasonic devices; yttrium compounds; 10 GHz; BAW devices; Gruneisen constants; JkYAl5O12; YLuAG; YLuAl5O12; YScAG; YScAl5O12; acoustic waveguides; bulk acoustic wave devices; dielectric material; extremely low acoustic-wave absorption; isomorphic solid solution; longitudinal waves; room temperature; shear acoustic waves; thermal phonon effective lifetime; viscoelastic absorption; Absorption; Acoustic waveguides; Acoustic waves; Aluminum; Dielectric materials; Earth; Garnets; Solids; Temperature; Yttrium;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
