Concept of Flat-Panel Laser Displays. Credit: Nature (2025). Doi: 10.1038/s41586-025-09107-7
Meta has developed a new flat ultra-thin panel laser display that count lead to lighter, more immersive augmented reality (ar) glasses and improvement of smartphones, tablets and televisions. The new display is only two millimeters thick and produces bright, high-resolution images.
Flat-pael displays, particularly that Illuminated by LEDs, are ubiquitous, seen in everything from smartphones and televisions to laptops and computers monitors. But no matter how good the current technology is, the search for better is always ongoing. Lesers promise superir brightness and the possibility of making the technology smaller and more energy Efficient by replacing bulky and power-hungry components with compact laser-bosed ons.
However, Current Laser Displays Still Need Large, Complex Optical Systems to Shine Light Onto Screens. Previous Attempts at Making Flat-Panel Laser Displays have come up short as they required complex setups or WERE WHE TOO Difentials to Manufacture in large quantities.
Device Design and Fabrication. Credit: Nature (2025). Doi: 10.1038/s41586-025-09107-7
The breakthrough
Meta’s Innovation, however, overomes these limitation by using a new method to create a flat and ultra-thin display. So how did they do it? The Researchers Spent Around Three Years on the Project, And Their Solution Involves a Centimeter-Scale Photonic Integrated Circuit, A Special Kind of Chip That Combines Thoughts Thousands of Componants with Differentry Optical functions. This means there are no bulky parts.
The New Display Integrates The Tiny Photonic Chip With A 5-BY-5-Millimeter Liquid-Crystal-Silicon (LCOS) Panel. The resulting device is one-eightith the thickness of conventional lcos displays and has a much wider range of colors.
The scientists detailed their research in a paper Published in the journey Nature“Our work represents an advancement in the integration of nanophotonics with display technologies, enabling a range of new display concepts, from from high-appears 3D Holography. “
However, despite the advances, there are still some limitations of the technology. For example, laser spec Also, the display’s light can only be turned on or off at once and not adjusted for specific parts of an image. This wastes a lot of power if the screen is mostly blank or when just showing a few words or icons.
Once the remaining challenges are resolved, there could be a raft of innovations. One of the most exciting applications is more immersive ar glasses. The meta team created a prototype see-through augmented reality system that seamlessly merged virtual images with real-world Scenes in an office environment, offering a new Way to Experience OR Surroundings and see the world.
Written for you by author Paul arnoldEdited by Robert egan—This article is the result of careful human work. We relay on readers like you to keep independent science counalism alive. If this reporting matters to you, please consider a donation (especially monthly). You’ll Get an ad-free Account as a Thank-You.
More information:
Zhujun Shi Et Al, Flat-Panel Laser Displays Through Large-Scale Photonic Integrated Circuits, Nature (2025). Doi: 10.1038/s41586-025-09107-7
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