| Material | CdZnTe (CZT) | Density | 5.8 g/cm³ |
| Resistance | >1010Ω·cm | Detector Thickness | 0.7 (±0.1) mm |
| Active Area of Windows | 490/900mm² (Circular Window); 400/900mm² (Square Window) |
Operating Temperature | -20°C to +40°C (standard) -20°C to +60°C (custom) |
| Energy Resolution | <1.0% at 5.486 MeV at 25°C (in vacuum) | Storage Conditions | Temperature -20°C to +40°C humidity 20%-80% (no condensation) |
| Notes. | Custom sizes and housing structures available |
Shalom EO's CZT (CdZnTe) Alpha Energy Spectrum Detector(CZTDT-P02) utilizes a Cadmium Zinc Telluride (CZT) crystal, specifically optimized for the detection of alpha particles with exceptional energy resolution. This CZT detector module from Shalom EO stands out with its high energy resolution for alpha rays of <1.0% at 5.486 MeV at 25°C (in vacuum), allowing accurate identification and measurement of alpha particles from sources such as radon isotopes.
Our CZT (CdZnTe) Alpha Energy Spectrum Detector(CZTDT-P02) is versatile, as it allows effective detection of charged particles under visible light conditions with an integrated window component rejecting visible lights, and in environments that might be vacuum or gas-filled. This detector devised based on the CdZnTe scintillator crystal is of compact design and small sizes that permit the ease of integration into various facilities where limited space is of concern. The metal housing and windows are all manufactured with top-class material which makes them scratch-resistant and durable.
The CZT alpha radiation detector is ideal for applications in scientific research, environmental monitoring, and various other fields that demand high precision, targeting for uses in nuclear physics, gas radioactivity detection, and environmental monitoring where high-precision alpha particle detection is needed.
Applications:
Graphs:
1. Energy resolution of Shalom EO's CZTDT-P02 CZT detector measured at 5.486 MeV Alpha Radiation
2. Temperature Response Graph: A comparison of the CZT detector's performance with a PIPS detector across different temperatures.
