The new device measures the wiggling of the beam, or, more precisely, the space between it and an electrically conducting point just a single atom wide, based on the speed of electrons “tunneling” across the gap. The work is the first use of an “atomic point contact,” the business end of an STM, to sense a nanomechanical device oscillating at its “resonant” frequency, where it naturally vibrates like a tuning fork. JILA is a joint venture of the National Institute of Standards and Technology (NIST) and the University of Colorado at Boulder.
Although the JILA technique, described in the March 2 issue of Physical Review Letters,* is not necessarily as precise as more complex and much colder methods of measuring very fast motions of ultra-small devices, it incorporates several innovative attributes. These include the ability to minimize unwanted random electronic “noise” as well as to measure the random shaking of the beam caused by back-action or recoil (similar to what happens when a gun is fired). This level of sensitivity is possible because the atomic point contact acts as an amplifier for these otherwise imperceptible factors, and the gold beam is tiny and floppy enough—just 100 nanometers (nm) thick, and 5.6 micrometers long by 220 nm wide—to respond to single electrons.
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