Title :
Investigation of crossed SAW fields by scanning acoustic force microscopy
Author :
Behme, Gerd ; Hesjedal, Thorsten
Author_Institution :
Paul Drude Inst. for Solid State Electron., Berlin, Germany
fDate :
7/1/2001 12:00:00 AM
Abstract :
We used multimode scanning acoustic force microscopy (SAFM) for studying noncollinearly propagating Rayleigh and Love wave fields. By analyzing torsion and bending movement of SAFM cantilever, normal and in-plane wave oscillation components are accessible. The SAFM principle is the down-conversion of surface oscillations into cantilever vibrations caused by the nonlinearity of the tip-sample interaction. Through mixing of complementary oscillation components, phase velocities of crossed Rayleigh waves on GaAs and crossed Rayleigh and Love waves on the layered system SiO/sub 2//ST-cut quartz were obtained simultaneously. Now, it is possible to investigate the elastic properties of submicron areas through multimode SAFM measurements. Finally, we present mixing experiments of four SAWs on GaAs and discuss the various influences on the measured SAFM amplitude and phase contrast.
Keywords :
Love waves; Rayleigh waves; acoustic microscopy; surface acoustic waves; ultrasonic imaging; ultrasonic materials testing; ultrasonic velocity measurement; GaAs; GaAs substrate; Love wave fields; Rayleigh wave fields; SAFM cantilever; SiO/sub 2/; SiO/sub 2//ST-cut quartz layered system; amplitude contrast; bending movement; cantilever vibrations; crossed SAW fields; down-conversion; elastic properties; mixing experiments; multimode SAFM measurements; phase contrast; scanning acoustic force microscopy; submicron areas; surface oscillations; tip-sample interaction nonlinearity; torsion; wave oscillation components; Acoustic measurements; Acoustic pulses; Acoustic waves; Atomic force microscopy; Frequency; Phase measurement; RF signals; Springs; Surface acoustic waves; Velocity measurement;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
