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Fabrication Technique Brings Metasurface Production Closer

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Researchers from Chalmers University of Technology have developed a new method of creating metasurfaces, which could bring mass production of ultrathin lenses closer to reality.

Metasurfaces consist of a multitude of interacting nanoparticles that together are able to control light and have numerous applications in the future of optical technology. The technology is based on previous work on a plastic that is already used to create other microstructures.
Researchers from Chalmers University of Technology, Sweden, present a new method for the fabrication of artificial materials known as 'metasurfaces', which consist of a multitude of interacting nanoparticles that together can control light. Courtesy of Chalmers University
Researchers from Chalmers University of Technology in Sweden developed a new method for the fabrication of artificial materials known as metasurfaces, which consist of a multitude of interacting nanoparticles that together can control light. Courtesy of Chalmers University of Technology.

“We put a thin layer of this plastic on a glass plate and, using a well-established technique called electron-beam lithography, we can draw detailed patterns in the plastic film, which after development will form the metasurface. The resulting device can focus light just like a normal camera lens, but it is thousands of times thinner, and can be flexible too,” said Daniel Andrén, a Ph.D. student at the Department of Physics at Chalmers and first author of the research paper recently published in the journal ACS Photonics.

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Optical technology has seen enormous advances: Cameras in cellphones (excluding sensor size) are comparable to DSLRs, owing much to smaller and more effective circuit components, though the lenses themselves have changed relatively little. The majority of lenses today are based upon the same physical principles, and include many of the same basic limitations, as the first prototypes invented in the 16th century. In the past decade, however, researchers have begun to work with artificial materials, metasurfaces, which could replace today’s lenses.

Previously, large-scale manufacturing of metasurfaces presented many obstacles. Advanced equipment is required for their manufacturing, and the process is quite time-consuming. However, using the method developed by the Chalmers researchers, the production rate can be increased several times compared to current state-of-the-art techniques.

The new technology uses harmless chemicals and machines common in nanomanufacturing laboratories today, meaning that more researchers could now begin to study metasurfaces.

“Our method could be a step toward large-scale production of metasurfaces,” said Ruggero Verre, a researcher at the Department of Physics at Chalmers and co-author of the paper. “That is the goal we are already working toward today. Metasurfaces can help us create different effects and offer various technological possibilities. The best is yet to come.”

The research was published in ACS Photonics (www.doi.org/10.1021/acsphotonics.9b01809).

Published: June 2020
Glossary
metasurfaces
Metasurfaces are two-dimensional arrays of subwavelength-scale artificial structures, often referred to as meta-atoms or meta-elements, arranged in a specific pattern to manipulate the propagation of light or other electromagnetic waves at subwavelength scales. These structures can control the phase, amplitude, and polarization of incident light across a planar surface, enabling unprecedented control over the wavefront of light. Key features and characteristics of metasurfaces include: ...
lens
A lens is a transparent optical device that focuses or diverges light, allowing it to pass through and form an image. Lenses are commonly used in optical systems, such as cameras, telescopes, microscopes, eyeglasses, and other vision-correcting devices. They are typically made of glass or other transparent materials with specific optical properties. There are two primary types of lenses: Convex lens (converging lens): This type of lens is thicker at the center than at the edges....
Research & TechnologyOpticsmetasurfacemetasurface lensmetasurfaceslenslensescamerascell phone cameracell phone camerasChalmersChalmers UniversityChalmers University of Technologycellphone camerasTech Pulse

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