Filmless image intensifiers with nanoengineered microchannel plates and UV-C (200-280 nm) and near-infrared (~1060 nm) sensitive photocathodes.
Electron-bombarded and hybrid systems combining image intensifiers with CMOS readout for compact, lightweight, high-frame-rate night-vision solutions.
Materials, processes, and epitaxial technologies (including GaAs workflows) with advanced testing and AI-based inspection to ensure performance and industrial readiness.
AI for denoising, contrast optimization, automatic gain control, and real-time threat recognition in degraded visual environments.
Investigating the properties and applications
Investigating the properties and applications
Assessing the impact of substances
Applying scientific methods for legal investigations
Photonics International R&D Center develops photonics-based sensors for military and dual-use applications.
Together with European partners we transform research concepts into validated prototypes and technology solutions.
Filmless image intensifiers with nanoengineered microchannel plates and UV-C (200-280 nm) and near-infrared (~1060 nm) sensitive photocathodes for improved sensitivity and early threat detection.
Electron-bombarded and hybrid systems combining image intensifiers with CMOS readout for compact, lightweight, high-frame-rate night-vision solutions.
Materials, processes and epitaxial technologies (including GaAs workflows) combined with advanced testing and AI-based inspection to ensure performance and industrial readiness.
AI-based denoising, contrast optimisation, automatic gain control and real-time threat recognition for improved situational awareness in degraded visual environments.
Our work focuses on developing advanced photonics-based sensors for defence and dual-use applications through applied research, experimental validation, and close collaboration with European partners.
We support the full innovation cycle – from early photonics concepts to validated prototypes – focusing on measurable performance, technological reliability, and real operational needs.
Research outcomes are validated through laboratory testing, precision measurement, and structured development processes to ensure reliable and reproducible photonic sensing technologies.
We specialize in laboratory testing, analytical research, scientific custom experiments and data interpretation.
We specialize in laboratory testing, analytical research, scientific custom experiments and data interpretation.
We specialize in laboratory testing, analytical research, scientific custom experiments and data interpretation.
We specialize in laboratory testing, analytical research, scientific custom experiments and data interpretation.
We specialize in laboratory testing, analytical research, scientific custom experiments and data interpretation.
An international research and engineering center focused on applied photonics, optical system development, and experimental validation. We bridge fundamental research and real-world optical performance.
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