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Bessel beam "tractor beam" concept theoretically demonstrated

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May 24, 2012

Researchers have demonstrated a tractor beam using a Bessel beam (not pictured) is theoret...

Researchers have demonstrated a tractor beam using a Bessel beam (not pictured) is theoretically possible (Photo: Shutterstock)

Last year, we looked at three potential “tractor beam” technologies being evaluated by NASA to deliver planetary or atmospheric particles to a robotic rover or orbiting spacecraft. At the time, the third of these, which involved the use of a Bessel beam, only existed on paper. Researchers at Singapore’s Agency for Science, Technology and Research (A*STAR) have now proven the theory behind the concept, demonstrating how a tractor beam can be realized in the real world – albeit on a very small scale.

Haifeng Wang at the A*STAR Data Storage Institute and colleagues studied the properties of Bessel beams, which, unlike normal laser beams, don’t diffract or spread out as they propagate. While light will usually be scattered backwards when a laser beam hits a small particle in its path, pushing the particle forward, the A*STAR team showed theoretically that light from a Bessel beam scatters off particles that are sufficiently small in a forward direction. This means that the particle is pulled back towards the observer.

The team says the amount of tractor beam force depends on various factors, including the electrical and magnetic properties of the particles. While, like a different tractor beam technology developed by researchers at the Australian National University (ANU), the forces exerted on the particles are very small, Wang says his team’s tractor beams do have real world applications.

While true Bessel beams are impossible to create, as they would require an infinite amount of energy, reasonably good approximations can be made and are used in many optical applications.

“These beams are not very likely to pull a human or a car, as this would require a huge laser intensity that may damage the object,” says Wang. “However, they could manipulate biological cells because the force needed for these doesn’t have to be large.”

He adds that the technology could also be used to gauge the tensile strength of cells, which can reveal whether a cell has been infected. “For instance, the malaria-infected blood cell is more rigid, and this technology would be an easy-to-use tool to measure this,” says Wang.

The team’s research appears in the journal Physical Review Letters.

Source: A*STAR Research

About the Author
Darren Quick Darren's love of technology started in primary school with a Nintendo Game & Watch Donkey Kong (still functioning) and a Commodore VIC 20 computer (not still functioning). In high school he upgraded to a 286 PC, and he's been following Moore's law ever since. This love of technology continued through a number of university courses and crappy jobs until 2008, when his interests found a home at Gizmag.   All articles by Darren Quick
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1 Comment

Small scale works better away from gravity. Could this be used (practicably) as a rescue technique for astronauts on a space walk/ repair? Could it be driven by solar power in space? How heavy would this tractor/beamer have to be, to handle a man's weight in space, and what kind of range could be expected? I know the scale is small, but it takes very little force to reverse the course of a drifting mass.

kellory
27th May, 2012 @ 06:47 pm PDT
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