X-ray detector

nuclear medecinewall-mountedhuman

The system is highly intelligent and deeply integrated, and can be widely used in fields such as healthcare, radiopharmaceutical enterprises, nuclear power and industry, and nuclear technology application enterprises. The system integrates radiation detection, IoT sensing, Internet and other technologies, optimizes the site radiation safety management process, and provides in-depth radiation data analysis and dynamic scene based plane view display. Department of Radiology：The Department of Radiology is a comprehensive department integrating imaging diagnosis and interventional therapy. Radiological diagnosis employs X-rays, gamma rays and other radiation to penetrate the human body, rendering images of internal bodily structures and organs on fluorescent screens or radiographic films, enabling evaluation of human anatomical morphology, physiological functions and pathological lesions. Department of Radiation Oncology：Radiation oncology is a localized therapeutic modality that uses ionizing radiation for cancer treatment. Radiation sources include alpha, beta and gamma rays emitted from radioactive isotopes, as well as X-rays, electron beams, proton beams and other particle beams generated by various X-ray therapy units and medical accelerators. Department of Nuclear Medicine：It adopts nuclear science technologies for disease diagnosis and treatment. As an integrated department combining imaging, therapeutic services, scientific research and teaching, it serves as one of the core modalities in modern medicine. Technical Parameters Detector：Energy compensated GM detector - Detecting radiation：x、γray Relative error：≤+15% - Energy response：-15%~20%(relative to Cs-137)