The movement of tiny cantilevers is important in many kinds of devices, including scanning probe microscopes, magnetometers, filters for telecommunications, and mass sensors. Applications are somewhat limited, however, because cantilevers oscillate at or near a single characteristic resonant frequency. Now, though, a group of researchers at Cornell University has built a cantilever that is tunable from 9.6 kHz all the way to 37 kHz. They used a scanning tunneling microscope probe, excited by a piezoelectric motor, to set a thin cantilever vibrating. In the figure, the probe comes in from the left and down at a 45° angle. The probe also played a second role: By moving along the length of the cantilever (which was clamped at one end), it changed the resonant frequency of the cantilever, much as one can adjust the frequency of a violin string by fingering it at various places. The Cornell scientists believe that their...
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1 January 2001
January 01 2001
Citation
Philip F. Schewe; Tunable micromechanical oscillator. Physics Today 1 January 2001; 54 (1): 9. https://doi.org/10.1063/1.4796216
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