Scientists have shown that sunlight alone can generate quantum-correlated photons capable of producing “ghost images,”…
Browsing: SPIE
The International Society for Optics and Photonics (SPIE) is a professional society that advances research, education, and industry in the fields of optics, photonics, and related scientific and engineering disciplines. Founded in 1955, SPIE serves a global community of scientists, engineers, and practitioners through conferences, publications, and educational resources. Its mission is to promote the science and application of light-based technologies, facilitating collaboration and innovation in fields such as biomedical optics, imaging, laser technologies, optical systems, and photonic devices. SPIE hosts prominent conferences and events, publishes technical journals and proceedings, and provides support for emerging technologies and careers through scholarships, grants, and professional development programs.
Researchers have developed a deep-learning-based surrogate model that dramatically speeds up simulations of nonlinear optical…
A new chip-scale spectrometer challenges the long-standing reliance on bulky optical systems by replacing physical…
A new laser-powered wireless system uses light to deliver data at speeds exceeding 360 Gbps.…
A single layer of atoms may seem too thin to meaningfully interact with light, yet…
A laser-written glass chip shows how fragile quantum signals can be decoded with high stability…
Researchers have developed an optical computing system that performs feature extraction for quantitative trading with…
A team of researchers has engineered a groundbreaking optical device that mimics the physics of…
A revolutionary new spintronic device developed in China enables powerful, precise control of terahertz (THz)…
A new solid-state laser produces 193-nm light for precision chipmaking and even creates vortex beams…
Imagine fiber optic cables acting as vast sensor networks, detecting vibrations for everything from earthquake…
Quantum entanglement, one of the strangest and most powerful aspects of physics, has just been…
Quantum computing has long struggled with creating entangled photons efficiently, but a team of researchers…
A groundbreaking technique using time-resolved electron microscopy and multi-polarization lasers has allowed scientists to analyze…
The all-in-one optical fiber spectrometer offers a compact microscale design with performance on par with…
Advancements in AI and IoT are driving demand for more powerful computing, leading to innovative…
Optical computing aims to replace electricity with light to achieve faster, energy-saving computing. Researchers have…
UCLA’s new unidirectional imaging technology enables image formation in a single direction, preventing image capture…