Researchers at the Australian National University (ANU) developed the first long-distance optical tractor beam which moved particles one fifth of a millimeter in diameter a distance of up to 20 centimeters.
This is around 100 times farther than previous experiments. "Demonstration of a large scale laser beam like this is a kind of holy grail for laser physicists," said Professor Wieslaw Krolikowski, from the Research School of Physics and Engineering.
The new technique is versatile because it requires only a single laser beam. It could be used, for example, in controlling atmospheric pollution or for the retrieval of tiny, delicate or dangerous particles for sampling.
The researchers can also imagine the effect being scaled up.
"Because lasers retain their beam quality for such long distances, this could work over meters. Our lab just was not big enough to show it," said co-author Dr Vladlen Shvedov, who worked on the ANU project, along with Dr Cyril Hnatovsky.
Unlike previous techniques, which used photon momentum to impart motion, the ANU tractor beam relies on the energy of the laser heating up the particles and the air around them.
The ANU team demonstrated the effect on gold-coated hollow glass particles.
The particles are trapped in the dark center of the beam. Energy from the laser hits the particle and travels across its surface, where it is absorbed creating hotspots on the surface.
Air particles colliding with the hotspots heat up and shoot away from the surface, which causes the particle to recoil, in the opposite direction.
To manipulate the particle, the team moves the position of the hotspot by carefully controlling the polarization of the laser beam.
"We have devised a technique that can create unusual states of polarization in the doughnut shaped laser beam, such as star-shaped (axial) or ring polarized (azimuthal)," Hnatovsky said.
"We can move smoothly from one polarization to another and thereby stop the particle or reverse its direction at will," Hnatovsky said.
The study is published in the journal Nature Photonics.

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