Lasers deflected using air

Lasers deflected using air

Technology News |
By Wisse Hettinga

Innovative concept changes the direction of laser light with the help of sound waves

Using a novel method, beams of laser light can be deflected using air alone. An invisible grating made only of air is not only immune to damage from the laser light, but it also preserves the original quality of the beam, reports the interdisciplinary research team in the journal Nature Photonics. The researchers have applied for a patent for their method.

Researchers from the Technical University of Darmstadt, Aalen University of Applied Sciences, Universität Hamburg, Inoson GmbH in St. Ingbert, the Helmholtz Institute Jena, and DESY were involved in the work. (DESY/Thomas Zoufal)

The innovative technique uses sound waves in order to modulate the air in the region where the laser beam is passing. “We’ve generated an optical grating with the help of acoustic density waves,” explains first author Yannick Schrödel, a Ph.D. student at DESY and Helmholtz Institute Jena. With the help of special loudspeakers, the researchers shape a pattern of dense and less dense areas in the air, forming a striped grating. In a way that is similar to how differential air densities bend the light in the Earth’s atmosphere, the density pattern takes on the role of an optical grating that changes the direction of the laser light beam. “However, deflecting light by diffraction grating allows much more precise control of the laser light compared to deflection in the Earth’s atmosphere,” says Schrödel. “The properties of the optical grating are influenced by the frequency and intensity – in other words, the volume – of the sound waves.”

In the first laboratory tests, a strong infrared laser pulse could be redirected in this way with an efficiency of 50 percent. Significantly higher efficiencies should be possible in the future, according to numerical models. For the first test, the scientists had to turn their special loudspeakers way up. “We are moving at a sound level of about 140 decibels, which corresponds to a jet engine a few metres away,” explains scientist Christoph Heyl from DESY and the Helmholtz Institute Jena, who is leading the research project. “Fortunately, we are in the ultrasound range, which our ears don’t pick up.”

The team sees great potential in the technique for high-performance optics. In their experiments, the researchers used an infrared laser pulse with a peak power of 20 gigawatts, which corresponds to the power of around two billion LED bulbs. Lasers of this and even higher power classes are used, for example, for material processing, in fusion research, or for the latest particle accelerators. “In this power range, the material properties of mirrors, lenses, and prisms significantly limit their use, and such optical elements are easily damaged by strong laser beams in practice,” explains Heyl. “In addition, the quality of the laser beam suffers. In contrast, we’ve managed to deflect laser beams in a quality-preserving way without contact.”

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