Speaker
Description
In recent years, material irradiation processing experiments have gained significant interest due to their vital role in various fields such as life sciences, material science, and electronics. Accurate and efficient determination of absorbed dose distribution is crucial for optimizing these processes. This study investigates the combination of glass plate irradiation and digital processing of obtained electron beam images to improve the characterization of electron beam transverse profiles and absorbed doses distribution in irradiation experiments. The proposed approach addresses limitations of traditional techniques, including the absence of real-time feedback and insufficient spatial resolution. By integrating glass plate irradiation with advanced digital processing methods, this technique enables high-resolution mapping of dose distribution, providing precise and controlled irradiation for improved processing of matter.