Add to ORKGWe report in this work on unprecedented levels of parametric amplification in microelectromechanical systems (MEMS) resonators with integrated piezoelectric actuation and sensing capabilities operated in air. The method presented here relies on accurate analytical modeling taking into account the geometrical nonlinearities inherent to the bridge-like configuration of the resonators used. The model provides, for the first time, precise analytical formula of the quality factor (Q) enhancement depending on the resonant mode examined. Experimental validations were conducted for resonant modes exhibiting, respectively, hard and soft-spring effects when driven in the nonlinear regime; Q amplification by a factor up to 14 has been obtained in air
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Inertial sensors, specifically MEMS gyroscopes, suffer in performance with down scaling. Non linear ...
Achieving large signal-noise ratio using low levels of excitation signal is key requirement for prac...
We report in this work on unprecedented levels of parametric amplification in microelectromechanical...
International audienceWe report in this work on unprecedented levels of parametric amplification in ...
We report, in this work, on unprecedented levels of parametric amplification in microelectromechanic...
In various applications, damping from the surrounding fluid severely degrades the performance of mic...
AbstractThis report details electronic feedback techniques which allow precise control of the qualit...
Parametric amplification in nanomechanical structures is demonstrated by modulating a purely intrins...
We describe and demonstrate a method by which the nonlinear piezoelectric properties of a piezoelect...
This paper details the design and enhanced electrical transduction of a bulk acoustic mode resonator...
Microelectromechanical Systems are ubiquitous in modern technology, with applications ranging from a...
Quality factor (Q) is an important property of micro- and nano-electromechanical (MEM/NEM) resonator...
In this work, we demonstrate the integration of piezoelectric actuation means on arrays of nanocanti...
Electrically addressed silicon bulk acoustic wave microresonators offer high Q solutions for applica...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Inertial sensors, specifically MEMS gyroscopes, suffer in performance with down scaling. Non linear ...
Achieving large signal-noise ratio using low levels of excitation signal is key requirement for prac...
We report in this work on unprecedented levels of parametric amplification in microelectromechanical...
International audienceWe report in this work on unprecedented levels of parametric amplification in ...
We report, in this work, on unprecedented levels of parametric amplification in microelectromechanic...
In various applications, damping from the surrounding fluid severely degrades the performance of mic...
AbstractThis report details electronic feedback techniques which allow precise control of the qualit...
Parametric amplification in nanomechanical structures is demonstrated by modulating a purely intrins...
We describe and demonstrate a method by which the nonlinear piezoelectric properties of a piezoelect...
This paper details the design and enhanced electrical transduction of a bulk acoustic mode resonator...
Microelectromechanical Systems are ubiquitous in modern technology, with applications ranging from a...
Quality factor (Q) is an important property of micro- and nano-electromechanical (MEM/NEM) resonator...
In this work, we demonstrate the integration of piezoelectric actuation means on arrays of nanocanti...
Electrically addressed silicon bulk acoustic wave microresonators offer high Q solutions for applica...
© 2015 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Inertial sensors, specifically MEMS gyroscopes, suffer in performance with down scaling. Non linear ...
Achieving large signal-noise ratio using low levels of excitation signal is key requirement for prac...