💾 Archived View for gmi.noulin.net › mobileNews › 237.gmi captured on 2023-01-29 at 08:49:41. Gemini links have been rewritten to link to archived content
⬅️ Previous capture (2021-12-05)
-=-=-=-=-=-=-
2007-08-07 13:03:57
Mon Aug 6, 9:27 AM ET
Scientists have discovered a ground-breaking way of levitating ultra small
objects, which may revolutionise the design of micro-machines, a new report
says.
Physicists said they can create "incredible levitation effects" by manipulating
so-called Casimir force, which normally causes objects to stick together by
quantum force.
The phenomenon could be used to improve the performances of everyday devices
ranging from car airbags to computer chips, say Professor Ulf Leonhardt and Dr
Thomas Philbin from Saint Andrews University.
Casimir force -- discovered in 1948 and first measured in 1997 -- can be seen
in a gecko's ability to stick to a surface with just one toe.
Now the British scientists say they can reverse the Casimir force to cause an
object to repel rather than attract another in a vacuum.
"The Casimir force is the ultimate cause of friction in the nano world, in
particular in some micro-electromechanical systems," said Leonhardt, writing in
the August issue of New Journal of Physics.
"Micro or nano machines could run smoother and with less or no friction at all
if one can manipulate the force," he added.
And he added: "In order to reduce friction in the nanoworld, turning nature's
stickiness into repulsion could be the ultimate remedy. Instead of sticking
together, parts of micromachinery would levitate."
Leonhardt stressed that the practise is possible only for micro-objects.
But he underlined that, although in principle it may one day be possible to
levitate humans, that day is a long way off.
"At the moment, in practice it is only going to be possible for micro-objects
with the current technology, since this quantum force is small and acts only at
short ranges," he said.
"For now, human levitation remains the subject of cartoons, fairytales and
tales of the paranormal."
Their research was to be published in the New Journal of Physics.