Imprinting nanostructure patterns in chocolate to create shimmery goodies is a demonstrated technique, but the Swiss startup ChocoFoil is the first supplier with a product on the market using this technology.
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Metalenses are an emerging technology for controlling light that could someday replace traditional lenses. However, they generally lack dynamic control over their optical properties and are limited to passive optical applications. Researchers from the United States and Italy investigated infiltrating metalenses with liquid crystals to allow for dynamic control.
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Optical isolators traditionally use single crystals to polarize light—could transparent ceramics be used instead? Researchers in Japan created high-performing transparent ceramics using lanthanide rare-earth oxides, materials previously believed to not be suited for optical applications.
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Controlling the chirality of light is important in many fundamental and applied studies. An international research collaboration designed and fabricated a metasurface that can control chirality by breaking the symmetry of light’s orbital angular momentum.
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The first images released from the Daniel K. Inouye Solar Telescope show the sun’s surface in unprecedented detail. Such imaging is possible because of ultra-low thermal expansion glass-ceramic mirrors, which are used in numerous large-scale telescope projects around the globe.
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Why give your Valentine chocolate when you could give them shimmery chocolate? Researchers at ETH Zurich found a way to imprint a special structure on the surface of chocolate to create a targeted color effect.
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High-entropy materials present significant potential for numerous applications due to their unique chemistries, but such materials’ optical properties have not been studied fundamentally yet. Two researchers at Alfred University begin to fill this knowledge gap by investigating a transparent high‐entropy fluoride laser ceramic.
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Metalenses, or flat surfaces that use nanostructures to focus light, are poised to revolutionize cameras, sensors, and displays—if the lenses can be mass produced. Researchers at the Harvard School of Engineering and Applied Sciences found deep-ultraviolet projection lithography can solve this production challenge.
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It is challenging to effectively monitor seismic quakes deep in the ocean. Lawrence Berkeley National Laboratory researchers and colleagues, who previously used optical fibers to monitor earthquakes on land, tested using optical fibers to monitor earthquakes undersea.
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The Large Synoptic Survey Telescope, targeted to begin operations in October 2022, is currently under construction in Chile. Funded through the National Science Foundation, LSST will contain both the largest convex mirror and largest optical lens ever made.
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