Mass Detection via Bifurcation Sensing With Multistable Microelectromechanical System

Abstract: In many applications, the detection of changing gaseous or liquid concentration within an environment is accomplished by monitoring the shift in resonance frequency of a microelectromechanical system designed to adsorb the target analyte. Recently, mass sensing using the onset and crossing of a dynamic bifurcation has been shown to reduce the mass threshold which may be detected. This approach effectively replaces detection of an analog quantity resolved by hardware capability (phase shift or resonant frequenc… Show more

“…*Corresponding author. E-mail: cbchurchill@hrl.com of damping and energy management for earthquake engineering (5,26), and enhanced MEMS (microelectromechanical systems) sensors (27). Despite considerable research interest, they have not found wide acceptance, in part because they are difficult to make and their nonlinear properties are highly sensitive to boundary conditions.…”

Dynamically variable negative stiffness structures

“…*Corresponding author. E-mail: cbchurchill@hrl.com of damping and energy management for earthquake engineering (5,26), and enhanced MEMS (microelectromechanical systems) sensors (27). Despite considerable research interest, they have not found wide acceptance, in part because they are difficult to make and their nonlinear properties are highly sensitive to boundary conditions.…”

Dynamically variable negative stiffness structures