Triad Light Innovation (TLI) will present two research papers at SPIE Photonics Europe 2026, showcasing our latest developments in programmable optical systems and real-time control platforms for advanced microscopy.
The first presentation introduces a programmable multimodality microscope designed for label-free cellular imaging and characterization. By integrating programmable optics, the system enables rapid switching and fusion of multiple imaging contrasts, including bright field, dark field, phase contrast, differential interference contrast, and quantitative phase imaging. This approach allows researchers to capture complementary cellular information without mechanical reconfiguration, supporting more efficient analysis in applications such as cell culture monitoring and biomedical research.
The second presentation focuses on a programmable FPGA platform with deterministic synchronization for real-time optical systems. The platform enables precise coordination between lasers, scanners, cameras, and detectors, providing high-speed data acquisition and deterministic timing essential for modern imaging systems such as multiphoton and light-sheet microscopes.
Presentation Details
Title : Programmable Multimodality Microscope for Label-Free Cellular Imaging and Characterization
Paper Number: 14094-4
Date & Time: 12 April 2026 • 14:10 - 14:30 CEST
Location: Strasbourg, France (Etoile B (Niveau/Level 1))
Title : A Programmable FPGA Platform with Deterministic Synchronization for Real-Time Optical Systems
Paper Number: 14094-35
Date & Time: 14 April 2026 • 11:50 - 12:10 CEST
Location: Strasbourg, France (Etoile B (Niveau/Level 1))
Through these presentations, TLI continues to advance programmable optics (“programoptics”), integrating optics, electronics, and software to enable flexible and scalable architectures for next-generation scientific instruments.
If you are attending SPIE Photonics Europe 2026, we welcome the opportunity to connect and discuss collaborations in programmable optics, advanced microscopy, and optical system engineering.