Advantage:
High sensitivity
Low afterglow
Fast conversion
Application:
Security and Industrial Inspection
X-CT
PET-CT
Industrial exploration
Medical CT
Specification Parameter
| Properties | Value | Unit |
| Density | 7.34 | g/cm³ |
| Hardness | 6.0 | Mohs |
| Refractive Index | 2.2 | |
| Wavelength of emission max. | 512 | nm |
| Decay Constant | 3 | μs |
| Afterglow | <0.01@20ms | % |
| Hygroscopic | No |
GOS ceramic (Gd₂O₂S) belongs to the hexagonal crystal system and offers advantages such as high light output, environmental friendliness, high chemical stability, and low afterglow. These properties make it widely used in CT imaging, security inspection, and non-destructive testing. EBO proudly presents premium GOS Ceramic, a state-of-the-art scintillation crystal ceramic material designed for superior performance in radiation detection and medical imaging. Our GOS Ceramic products are engineered to deliver excellent light output, fast response time, and robust mechanical strength, making them ideal for PET scanners, nuclear detection, and industrial inspection.
EBO can fabricate GOS ceramic into linear and two-dimensional array configurations according to customer requirements.
High Light Yield: Our GOS Ceramic provides intense scintillation light, ensuring precise and sensitive detection.
Fast Decay Time: Quick response time enhances detector performance in dynamic measurement scenarios.
Superior Mechanical Properties: Robust ceramic structure resists cracking and withstands harsh operating conditions.
Thermal and Chemical Stability: Maintains consistent performance across varying environmental conditions.
Versatile Applications: Widely used in medical imaging, nuclear physics research, security scanning, and industrial non-destructive testing.
Related Products
Advantage:
High transparency
Excellent durability
Good resistance to vibration, impact, and humidity
BGO (Bismuth Germanate) is a high-Z, high-density scintillating crystal. The material has a high atomic number (Z=83 for bismuth) and a density of 7.13 g/cm³, making it a highly efficient gamma-ray absorber.
Due to the high-Z properties of the material, the gamma-ray-induced light absorption fraction is significantly enhanced, resulting in an excellent peak-to-total ratio.
Advantage:
Excellent energy resolution
Dual detection capability
Fast response time
High light yield
Advantage:
Excellent Energy Resolution
High Charge Collection Efficiency
High Speed Detection
Direct Conversion – True Semiconductor
High Density and Effective Z
Advantage:High photon yield、High energy resolution、Non-hygroscopicity
GAGG Scintillation Crystal Gadolinium Aluminum Gallium Garnet
Advantage:
High refractive index
LYSO(Ce) - Lutetium Yttrium Orthosilicate (Lu₂SiO₅:Ce) is a relatively new scintillator crystal that features high density, high light output, short decay time and good radiation resistance. These properties make it ideal for detecting and measuring ionizing radiation such as gamma rays and positrons.
Advantage:
High light outputs
Best energy resolution
Fast emission
Excellent radiation hardness
Fast decay times
Advantage: High density CdWO4 scintillator、Strong anti-radiation ability、No background radiation
Advantage:
No background radiation
Fast decay time
Mechanically robust characteristic