💡How to Boost the Quantum Efficiency of Your Detection Systems
Whether you’re an industrial decision-maker, R&D engineer, or a specialist in medical imaging, security, or optoelectronics, explore how our custom 4N solutions—such as LuAG, YAG, and spinels—are pushing the limits of inorganic detectors.
Thanks to our ready-to-use submicron powders and advanced doping systems, your detection devices gain in compactness, speed, and reliability—offering a concrete technological advantage in the field of ionizing radiation detection.
What will you learn?
- ✅ The principles of inorganic detection
- ✅ The conditions for high quantum efficiency
- ✅ The impact of doped submicron powders (LuAG, YAG, spinels) on performance
- ✅ How our solutions enhance image accuracy in even the most compact detection systems
🔬 What Aluminate Solutions Are Offered?
- Transparent ceramics and spinel for detector protection
- Phosphors for signal revelation
- Doping: MgAl2O4, Y3Al5O12, YAG:Ce3+, co-doped YAG, Lu3Al5O12, LuAG:Ce3+, co-doped LuAG
- Innovations and R&D in aluminate and garnet formulation (Ce:GAGG, MgAl₂O₄, etc.)
- Ready-to-use solutions for better processability: spray-dried and Ready-to-Press powders, slurries
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👨🔬 Who Is This White Paper For?
- Technical managers and materials engineers
- Medical imaging professionals (CT, PET, MRI)
- Security, defense, and geophysical detection experts
- Photonics and advanced optics industry players
📘 Why Download Our Inorganic Detection White Paper?
- Explore our expertise and offering in 4N powders with high chemical, phase, and crystalline purity for advanced detection
- Discover how we support the design of solutions tailored to your specific needs
Discover all our White Papers