Tired of using bulky night vision goggles for your clandestine nocturnal activities? An interdisciplinary team of Chinese neuroscientists and materials scientists has developed near-infrared contact ...

Neuroscientists and materials scientists have created contact lenses that enable infrared vision in both humans and mice by converting infrared light into visible light. Unlike infrared night vision ...

But mice who weren't wearing the lenses didn't show a preference between the boxes. Next, in human trials, lens wearers were able to detect a Morse code pattern from pulsed infrared signals. Perhaps ...

Physicists have developed a lens with 'magic' properties. Ultra-thin, it can transform infrared light into visible light by halving the wavelength of incident light. Lenses are the most widely used ...

In a lab in Zurich, scientists have built something that, at first glance, shouldn’t be possible. When a beam of infrared light strikes their ultra-thin lens—barely thicker than a red blood cell—it ...

Scientists have developed revolutionary contact lenses that grant wearers the ability to see infrared light—a feat humans naturally cannot achieve. This breakthrough, detailed in the journal Cell00454 ...

TL;DR: Scientists at the University of Science and Technology of China have developed nanoparticle-infused contact lenses that enable night vision without the need for any power source. These lenses ...

The latest development in night vision technology centers around a new lens that captures infrared light. This cutting-edge advancement significantly enhances visibility in low-light environments, ...

Scientists in Switzerland have developed an ultra-thin metalens that converts invisible infrared light into visible light by halving its wavelength, using nanoscale patterns stamped into a special ...

Aside from the coating and two extra thumb screws on the lens body, it's basically identical to the production version. obscura0rex SHARE Most lenses handle visible light just fine. Start dabbling in ...

Infrared light passes through the metal lens and is converted into violet light and focused in a focal point due to the material and the special surface structures—enlarged in the magnifying glass.