Radioactive tomography scanner

Radioactive tomography scanner is an instrument used to measure the distribution of radionuclides and is commonly used in fields such as medical imaging, radioisotope detection, and environmental monitoring. This instrument uses the decay of radionuclides and radioisotope detectors to measure the radioactivity intensity of the object being measured, thereby obtaining a radioactive distribution image of the object being measured.

The basic principle of a radioactive tomography scanner is to use the decay of radionuclides to produce radiation and interact with scintillation crystals in the detector to produce a light signal. These optical signals are converted into electrical signals by photodiodes, and then through signal processing and image reconstruction algorithms to generate radioactive distribution images of the measured object.

In medical imaging, radioactive tomography scanners can be used to detect tumors, blood vessels, nerves and other tissue structures and help doctors diagnose diseases and plan treatment. In terms of environmental monitoring, radioactive tomography scanners can be used to detect the distribution and migration of radioactive materials in the environment, thereby assisting environmental protection departments in environmental monitoring and management.

In summary, radioactive tomography scanners are very useful tools that can be used in research and applications in many fields.