Akademik Veri Yönetim Sistemi
11th International Conference on Material Science and Nanotechnology for Next Generation (MSNG-2024), Çanakkale, Türkiye, 22 - 25 Mayıs 2024, ss.1-2
Due to the increasing instantaneous luminosity and unprecedented radiation conditions at particle physics and high-energy physics accelerators, the demand for precision, robustness, and reliability in radiation-resistant particle detectors and ionization calorimeters remains significant. Secondary Emission (SE) Ionization Calorimetry is a new design technology that measures the energy of hadronic and electromagnetic particles, especially in high-radiation environments. In this study, we investigated the cosmic and gamma radiation test of a developed SE ionization calorimetry module. The modules were developed by modifying the conventional Hamamatsu single anode R7761 Photomultiplier Tubes (PMTs). Three distinct voltage configurations were created for each module. The results show that all three modes have good sensitivity to electromagnetic showers and are suitable for high-radiation environments. Here, we discuss the technical design, test characteristics, and cosmic and particle interaction results of the newly developed SE modules.