MKS Instruments, Inc., a global provider of technologies that enable advanced processes and improve productivity, has announced the Ophir® SupIR 60-1200 MWIR f/4 lens, the latest addition to the company's series of lenses designed for SXGA/HD 10 µm and 15 µm VGA pitch FPA (focal plane array) cooled MWIR cameras.
Low-cost, strong photoluminescence quantum yield, and excellent color purity define metal halide perovskites. Perovskite light-emitting diodes have made rapid progress in recent years, with intriguing applications in lighting and display.
Radiant Vision Systems, a leading provider of visual test and measurement solutions for light sources and displays, announces the release of its new XRE Lens for near-eye display testing of extended reality (XR) headsets and smart glasses.
No one would ever imagine crumpling up their smartphone, television or another electronic device. Today's displays – which are flat, rigid and fragile – lack the ability to reshape to interactively respond to users.
Researchers have developed a new method to display highly realistic holographic images using 'holobricks' that can be stacked together to generate large-scale holograms.
For the first time in the world, the Korea Institute of Machinery and Materials (President Sang Jin Park, hereby termed as KIMM), an institute under the Ministry of Science and ICT, has invented a new stretchable meta-display technology that can be extended up to 25% without image degradation.
Scientists have shown a model of a glasses-free three-dimensional (3D) light field display system with a considerably extended viewing distance owing to a recently designed flat lens.
Television screens are getting bigger, sharper, and more colorful, and they could now be up to 30% brighter.
The Model 357 Non-Browning Zoom lens from Resolve Optics delivers clear sharp images free of the strong yellow tint that has traditionally been a limiting issue for colour sensors used in high radiation environments.
Researchers have developed a new image reconstruction approach that could contribute to better breast cancer detection. The deep learning algorithm overcomes a major hurdle in multi-modality imaging by allowing images to be recovered in real time.