Advantage:
Excellent Energy Resolution
High Charge Collection Efficiency
High Speed Detection
Direct Conversion – True Semiconductor
High Density and Effective Z
Application:
Gamma Ray Spectroscopy
X-ray Imaging
Health Physics
Medical Diagnostics
Site Monitoring
Position Sensing
X-ray Diffraction
Dosimeters
Industrial Gauging
Specification Parameter
| Properties | Value | Unit |
| Crystal size | 2-3 | mm |
| Electrical properties | Ferromagnetic metal | |
| Crystal structure | Hexagonal | |
| Unit cell parameters | a = b = 0.399 nm, c = 1.633 nm, α = β = 90°, γ = 120° | |
| Purity | >99.99 % |
EBO proudly offers top-tier CZT Scintillation Crystal products, engineered for exceptional performance in radiation detection and spectroscopy. Our CZT Scintillation Crystal solutions combine advanced semiconductor technology with superior material quality, ensuring precise detection and long-term reliability.
The CZT Scintillation Crystal (Cadmium Zinc Telluride) is a revolutionary scintillation crystal widely recognized for its direct conversion capabilities and room-temperature operation. Unlike traditional scintillators, CZT enables high-resolution gamma and X-ray detection without the need for cooling, making it an ideal choice for various applications.
Direct Detection Mechanism: EBO's CZT Scintillation Crystal directly converts radiation into electrical signals, significantly enhancing detection accuracy and reducing signal noise.
Superior Energy Resolution: Our CZT Scintillation Crystal offers outstanding energy discrimination, allowing precise identification of radiation types and energies.
Room Temperature Operation: Unlike many semiconductor detectors, the CZT Scintillation Crystal operates efficiently at ambient temperatures, simplifying system design and reducing costs.
Compact and Durable: With robust mechanical properties, the CZT Scintillation Crystal supports compact detector designs suitable for portable and fixed installations.
Low Noise and High Sensitivity: The material quality and crystal growth techniques used by EBO ensure high sensitivity and minimal electronic noise in measurements.
Related Products
Advantage:
Excellent energy resolution
Dual detection capability
Fast response time
High light yield
Cesium iodide (CsI(Tl)), activated by thallium, is one of the most efficient scintillators discovered so far. CSI Crystal exhibits thallium-activated luminescence with an emission peak at 550 nm and a light output of 45% relative to NaI(Tl). In contrast, cesium iodide activated by sodium (CsI(Na)) features a sodium-activated emission peak at 420 nm and a higher light output (85% of NaI(Tl)). Both materials share properties such as deliquescence, soft and plastic mechanical behavior, radiation resistance, high-temperature tolerance, and fast timing characteristics (for pure CsI). They are widely used in particle detection for high-energy physics experiments, medical SPECT imaging, baggage/container security inspection, industrial level sensing and non-destructive testing, and cosmic ray research in space physics.
Advantage: High density CdWO4 scintillator、Strong anti-radiation ability、No background radiation
Advantage:
High sensitivity
Low afterglow
Fast conversion
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:
High light outputs
Best energy resolution
Fast emission
Excellent radiation hardness
Fast decay times
Advantage:
High refractive index
Advantage:
No background radiation
Fast decay time
Mechanically robust characteristic
Advantage:
High transparency
Excellent durability
Good resistance to vibration, impact, and humidity
Advantage:
High sensitivity
Low afterglow
Fast conversion