Title :
Strong ultrasonic microwaves in ferroelectric ceramics
Author_Institution :
Inst. fur Werkstoffe der Elektrotech., Tech. Hochschule Aachen, Germany
Abstract :
It is well known that ferroelectric materials have piezoelectric properties which allow the transformation of electrical signals into mechanical signals and vice versa. The transducer action normally is restricted to frequencies up to the mechanical resonance frequency of the sample. There are, however, two mechanisms which allow transducer action in ferroelectric ceramics at much higher frequencies: one is the normal piezoelectric effect in a ferroelectric ceramic in which the crystallites have periodic domain structures, the other is a domain wall effect in which ferroelastic domain walls in a periodic domain structure are powerful shear wave emitters. Both mechanisms give rise to extensive dielectric losses in ceramics at microwave frequencies.
Keywords :
acoustic microwave devices; acoustic transducers; crystallites; dielectric losses; domains; ferroelasticity; ferroelectric materials; piezoceramics; piezoelectric transducers; ultrasonic transducers; crystallites; dielectric loss; ferroelastic domain walls; ferroelectric ceramic; mechanical resonance; periodic domain structure; piezoelectric properties; shear wave emitter; transducer; ultrasonic microwaves; Ceramics; Dielectric losses; Ferroelectric materials; Mechanical factors; Periodic structures; Piezoelectric effect; Piezoelectric transducers; Resonance; Resonant frequency; Ultrasonic transducers;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
