Split resonances for simultaneous detection and control measurements in a single bulk acoustic wave (BAW) sensor†
Abstract
A self-referenced resonator consisting of two distinct areas of the top electrode made from Mo and a thin (5–30 nm) functional Au layer is shown. The fundamental frequencies for both the shear (∼1 GHz) and longitudinal (∼2 GHz) modes are split in two, such that mass attachment on the functional layer region causes frequency shifts in only one of the resonances, allowing a new approach of using the difference between the two frequencies to be used to measure mass attachment; this reduces the importance of device-to-device variability in absolute resonant frequency as a result of device fabrication.