Description
Key Advantages
Broad Compatibility
Seamlessly integrates with pixelated photodiodes, PSPMTs, and SiPMs, making it suitable for diverse imaging systems in medical and industrial fields.
High Light Output & Sensitivity
Utilizes high-performance scintillators to generate strong photon signals, ensuring high signal-to-noise ratios even for low-dose radiation (e.g., 511 keV gamma rays in PET).
Excellent Energy Resolution
Precisely discriminates between radiation energies, enabling multi-energy imaging to distinguish material compositions (e.g., tissue types in medical imaging or material defects in NDT).
Customizable Design
Minimum pixel size as small as 0.2×0.2 mm (BGO/LYSO) and pixel pitch down to 0.06 mm, with fully customizable array dimensions to meet specific spatial resolution requirements.
Uniform Performance
All scintillators undergo precision grinding/polishing, with uniform reflective layer coating, minimizing pixel-to-pixel variation and reducing imaging artifacts.
Technical Specifications: The array sizes of scintillators BGO, LYSO, CsI, and GAGG are all customizable, with their surface treatment being Ground/Polished. For reflective layer options, BGO and LYSO offer BaSO₄, ESR, E20, and E60L, while CsI and GAGG provide TiO₂, BaSO₄, ESR, and E60. The minimum pixel size of BGO and LYSO is 0.2×0.2 mm, and that of CsI and GAGG is 0.4×0.4 mm. In terms of minimum pixel pitch, BGO and LYSO have options of 0.06, 0.08, and 0.2 mm, while CsI and GAGG offer 0.08, 0.1, 0.2, and 0.3 mm.
