Title :
Resonant LGS microsensor for scanning microdeformation microscopy
Author :
Douchet, G. ; Sthal, F. ; Bigler, E. ; Leblois, T. ; Vairac, P.
Author_Institution :
Time & Freq. Dept, Femto-ST Inst., Besancon, France
Abstract :
Scanning microdeformation microscopy (SMM) is a near field microscopy in the mesoscopic domain. Such a microscope has become an alternative to the high resolution acoustic microscope that operates at very high frequencies. SMM is based on a vibrating contact tip and piezoelectric detection. The lateral resolution is essentially related to the tip diameter. Classically, the SMM sensor is obtained by a complex mounting process. The tip is glued on a Si cantilever driven by a piezoelectric ceramic. Piezoelectric crystal is an alternative to get a monolithic vibrating cantilever. Quartz crystal, which is the most often used piezoelectric material, can be advantageously replaced by Langasite crystal because of its higher piezoelectric coefficients and its better temperature behaviour.
Keywords :
acoustic microscopes; acoustic microscopy; cantilevers; deformation; lanthanum compounds; micromechanics; microsensors; piezoceramics; quartz; SMM sensor; Si cantilever; acoustic microscope; high piezoelectric coefficients; langasite crystal; lateral resolution; mesoscopic domain; monolithic vibrating cantilever; near field microscopy; piezoelectric ceramic; piezoelectric crystal; piezoelectric detection; piezoelectric material; quartz crystal; resonant LGS microsensor; scanning microdeformation microscopy; temperature behaviour; tip diameter; vibrating contact tip; Electrodes; Etching; Frequency; Microscopy; Microsensors; Optical resonators; Piezoelectric transducers; Resonance; Temperature; Ultrafast optics; Langasite; cantilever; resonator; scanning microdeformation microscopy;
Conference_Titel :
Ultrasonics Symposium (IUS), 2009 IEEE International
Conference_Location :
Rome
Print_ISBN :
978-1-4244-4389-5
Electronic_ISBN :
1948-5719
DOI :
10.1109/ULTSYM.2009.5441465
