Artificial Intelligence Vision Fabric
Tue, Jan 6, 2026 11:00 AM - 12:00 PM EST
AI Vision Fabric is a breakthrough platform that fuses advanced digital holography with Fresnel coherent diffraction imaging (FCDI), transforming how artificial systems capture and interpret visual information. Inspired by nature's most efficient vision systems, this technology unlocks performance far beyond the limits of traditional optics. At its core is a quantum-ready multichannel electro-optic synchronization interface, enabling real-time recording of holographic data with scalable, ultrahigh precision. When paired with quantum multichannel processors, it opens the door to unprecedented speed, parallelism, and intelligence. This powerful fusion of AI, holography, and biological inspiration creates a new generation of vision technology - one that achieves human-like flexibility and scalability without precision lenses, moving parts, or heavy computational loads.
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Meeting Next-Generation Optical Component and System Metrology Needs
Tue, Jan 13, 2026 11:00 AM - 12:00 PM EST
As optical systems evolve toward greater design complexity, the demand for precise, reliable metrology continues to grow. Vibration-insensitive interferometry is emerging as a critical enabler for advancing the fabrication and integration of next-generation components. This technique supports high-precision measurement of aspheres, freeform optics, and infrared (IR) components, extending capability into new wavelength regions while accommodating the industry's shift toward smaller, more integrated optical elements. Attendees will discover how this approach is transforming optical metrology, bringing precision and flexibility to the production line and helping manufacturers keep pace with the innovation driving modern optical design.
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Exploring the Benefits of Borosilicate Glass in Automotive Lighting
Wed, Jan 14, 2026 11:00 AM - 12:00 PM EST
Automotive lighting is advancing at a rapid pace, driven by technologies such as high-power LEDs, adaptive driving beams, and integrated sensor systems. These innovations introduce new challenges in thermal management, durability, and optical precision - areas in which traditional glass materials often reach their limits.
This webinar focuses on the role of BOROFLOAT® 33 borosilicate glass in addressing these challenges. With its distinctive combination of thermal stability, optical clarity, and mechanical strength, BOROFLOAT® 33 has emerged as a key material for next-generation lighting and sensing applications. Presented by SCHOTT.
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Reaching the Limit of Human Perception — With Kunli Xiong
From TVs to AR/VR headsets, tech giants have always pushed for the highest picture resolution. That push may soon come to an end after researchers demonstrate the smallest pixels to date, reaching the very limits of the human eye. Using nanoparticles, those pixels reproduce colors whose dimensions and arrangement control how light is scattered, and its optical properties can be electrically tuned. A new retina e-paper has allowed researchers to create pixels so small that they can correspond to a single photon receptor in the eye. In this episode, Kunli Xiong, an assistant professor in the Department of Materials Science and Engineering at Uppsala University, explains how this technology could go beyond AR/VR systems and improve remote collaboration and even accelerate scientific research.
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Call for Articles
Photonics Media is currently seeking technical feature articles on a variety of topics for publication in our magazines (Photonics Spectra, BioPhotonics, and Vision Spectra). Please submit an informal 100-word
abstract to editorial@Photonics.com, or use our online submission form.
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