Optical Surfaces Ltd. has developed a new compact beam expander that uniquely delivers high magnification (x30) from small aperture (2 mm) high power laser beam lines.
Liquid film has the potential to function as optical memory, thereby allowing new architectural horizons for nanoscale neuromorphic computing.
Scientists from the Max Planck Institute of Quantum Optics, Ludwig Maximilian University of Munich, and Stanford University have successfully recorded a helical light field on the shortest time and length scales using their newly devised “nanoTIPTOE” method.
Headwall Photonics®, a leading manufacturer of master holographic gratings, spectrographs, and spectrometers for OEM customers, announced today the acquisition of Holographix® LLC.
The Australian National University (ANU) physicists have invented small transparent slides that may produce two quite distinct pictures depending on the way light flows through them.
Ultrafast light-driven magnetization control on a nanometer length scale is critical for achieving competitive bit sizes in next-generation information encoded technology.
Nüvü Came¯ras is on its way to occupying a prime position in space exploration with the development of its proprietary low light imaging solution for nanosatellites.
Due to their excellent efficiency, micro-LEDs have been employed in a variety of applications, including micro-displays, visible light communication, optical biochips, wearable devices, and biosensors.
Optical lens advancement has long been regarded as a significant indicator of human scientific progress. Eyeglasses, cameras, telescopes, and microscopes have all enabled to see the world in a new light, both literally and metaphorically.
According to Australian scientists who created a nanotech imaging device small enough to fit on a smartphone camera lens, it can make the detection of some diseases accessible and inexpensive for individuals in rural and isolated areas.