The Gamma Ray Collimator is a precision device designed to direct gamma rays for accurate detection and imaging. Made from high-density materials like lead or tungsten, it features precisely engineered channels that allow only specific angles of gamma rays to pass through, ensuring high-resolution imaging and minimal scatter. Available in various configurations, including parallel, converging, and diverging holes, it can be customized to meet specific application needs.
Ideal for nuclear medicine applications such as SPECT and PET scans, it enhances the clarity and accuracy of medical imaging. In industrial settings, it is used for non-destructive testing and material analysis, providing detailed insights into internal structures. The collimator's robust construction ensures durability and reliability, even in high-radiation environments. Its compact design and lightweight materials make it easy to handle and integrate into existing systems. Whether for medical diagnostics or industrial inspections, the Gamma Ray Collimator is a vital tool for precise radiation detection and imaging.
High-precision collimation
The gamma-ray collimator uses a channel design to ensure that only gamma rays at a specific angle can reach the detector, thus forming a clear image.
Multiple material options
Collimator materials usually include heavy metals such as lead and tungsten, among which tungsten is widely used due to its high density and excellent shielding performance.
Customized design
The arrangement of the collimation holes can be flexibly adjusted according to the arrangement of the detector to achieve the best imaging effect.
Low noise and high sensitivity
Adopt advanced designs, such as the close-packed features of regular triangles, to reduce background noise and improve detection sensitivity.
Portability and lightweight
Modern gamma-ray collimators are compact in design, lightweight, and easy to carry and operate.
It is widely used in single photon emission computed tomography (SPECT) and positron emission tomography (PET) in nuclear medicine for cancer detection, cardiac imaging, etc. It is used in gamma knife surgery to accurately treat tumors through multi-angle focused radiation.
Material | Tungsten alloy |
Chemical composition | 95WNiFe |
Purity | 99.95% |
Shape | collimator |
Density | 17.0g/cm3-18.5g/cm3 |
Type | TCN799 TCN827 TCN828 TCN846 |
Application | Health Medical |
Standard | ASTM B777/ML-T-21014 |
Delivery time | 25 days |
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