Dynamic Optical Characterization of NEMS Resonators

Abstract

The small sizes of the MEMS or NEMS electromechanical resonators and their single wafer, multi frequencies possibilities has focused tremendous interest in the development of demonstrators using standard CMOS process. But sizes reduction induces output signal detection challenge. This paper deals with the dynamic characterization of NEMS. Heterodyne interferometric measurements are performed on beam and plate resonators obtained using the silicon-on-nothing (SoN) process. We obtained respectively 6.6 and 10.5 MHz resonant frequency for these devices, in correlation with ANSYS simulation predictions. Dynamic optical characterization seems to be a promising method to study nanoelectromechanical devices in the aim to enhance their performances.