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Delft University of Technology makes world's smallest piano wire
Researchers from Delft University of
Technology and FOM Foundation have successfully made
and 'tuned' the world's smallest piano wire. The wires
are made of carbon nanotubes that measure approximately
2 nanometers in diameter.
The researchers at the Kavli Institute of Nanoscience
Delft and the FOM Foundation (Fundamental Research on
Matter) made the small wires from carbon nanotubes,
measuring approximately 1 micrometer long and approximately
2 nanometres in diameter. The tubes were attached to
electrodes and initially placed above a layer of silicon
oxide. This layer of silicon oxide was then partially
etched away with acid, which caused the tubes to detach
and hang.
A layer of silicon is contained beneath the silicon
oxide. A strong and frequently variable alternating
current is applied to this layer, which causes the hanging
nanotubes to vibrate. The suspended tube is alternately
attracted and repelled. The largest measured deviation
for one tube was 8 nanometres. The distance of the nanotubes
to the layer of silicon influences the electrical capacity
to the layer of silicon. The movement of the nanowires
is derived from these changes in capacity.
When the frequency of the applied current approaches
the level of the suspended tube's eigenfrequency, it
begins to vibrate more powerfully. The order of magnitude
of these frequencies amounts to a few tens of MHz. By
varying the strength and frequency of the applied current,
the research group led by Professor Herre van der Zant
succeeded in transposing the wire from a freely suspended
state, to a state in which it is taut and vibrates.
Van der Zant: "And as such it is like tightening
a piano wire or guitar string. You can, as it were,
tune the wire."
The Delft researchers have developed a model that can
satisfactorily predict the vibrations of the nanotubes.
The vibrating nanotubes are not only interesting from
a scientific standpoint; in future they can also be
used for other specific applications. Van der Zant identifies
one possibility as a hypersensitive mass sensor. "The
nanotubes are extremely lightweight. If you suspend
something from the tube that is also extremely lightweight,
like a virus, then the change in mass is rendered by
a different vibration pattern. From this, you can determine
the size of the extra mass and deduce if it involves
the virus concerned." The vibrating tubes may also
be of interest for GSM-related applications (which now
use resonators that vibrate in the GHz-field.)
Visit www.tudelft.nl
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