Title :
Atomic Force Microscopy characterization of electromechanical properties of RF acoustic bulk wave resonators
Author :
Paulo, A. San ; Liu, X. ; Bokor, J.
Author_Institution :
Berkeley Sensors & Actuators Group, CA, USA
Abstract :
In this paper we demonstrate the ability of Atomic Force Microscopy (AFM) in combination with a lock-in detection technique for the characterization of the electromechanical properties of acoustic bulk wave resonators. In particular, this method is applied to study the mechanical frequency response and the acoustic mode shapes of the Agilent Technologies´ Film Bulk Acoustic Resonator (FBAR). The mechanical resonance frequencies of the FBARs in the GHz range are measured in air, and the shape of the acoustic modes is obtained over 100×100 μm areas with nanometer-scale lateral resolution and angstrom-scale vertical resolution.
Keywords :
acoustic resonators; atomic force microscopy; bulk acoustic wave devices; AFM; Agilent Technologies; RF acoustic bulk wave resonators; acoustic bulk wave resonators; acoustic mode shapes; angstrom scale vertical resolution; atomic force microscopy characterization; electromechanical properties; film bulk acoustic resonator; lock-in detection technique; mechanical frequency response; mechanical resonance frequency; nanometer scale lateral resolution; radio frequency; Acoustic measurements; Acoustic signal detection; Acoustic waves; Atomic force microscopy; Film bulk acoustic resonators; Frequency response; Radio frequency; Resonance; Resonant frequency; Shape measurement;
Conference_Titel :
Micro Electro Mechanical Systems, 2004. 17th IEEE International Conference on. (MEMS)
Print_ISBN :
0-7803-8265-X
DOI :
10.1109/MEMS.2004.1290549
