High-performance neutron counter which is compact, fast, accurate and robust against gamma radiation but doesn’t need power source
Conventional neutron beam detector has several issues such as the detection unit size is large, the power source is necessary, the device is complicated so the design becomes costly, the noise is included in the signal current, an expensive gas is required, and lastly the detector is expensive due to the design & manufacturing cost. This invention is about a low cost high accurate compact neutron beam detector that doesn’t require power source, and has a simple structure by using a commercially available ■■. Since the highly radiation-resistant semiconductor has been used as an element, it is expected to be used in high neutron flux environment such as neutron flux measurement, for example the boron neutron capture therapy (BNCT) which is a next generation cancer treatment.
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The revenue generated from technology transfer is reinvested into universities and researchers as new research funding, which is used to create further research outcomes. To ensure the smooth operation of this cycle, known as the "Intellectual Creation Cycle," we will actively promote technology transfer. The types of seeds we handle include patents, know-how, databases, and programs. We have established a collaborative framework by concluding basic technology transfer agreements with the following universities (as of June 1, 2025): - Tohoku University - Hirosaki University - Iwate University - Akita University - Fukushima University - Yamagata University - Tohoku Gakuin University - Iwate Medical University - Fukushima Medical University - Aizu University - Miyagi University - Hokkaido University - Muroran Institute of Technology - Showa Medical University
