abstract |
One aspect of the present invention is to provide a radiation detection system for a neutron capture therapy system that improves the accuracy of the neutron beam irradiation dose of the neutron capture therapy system and can detect faults in time, wherein the neutron capture therapy system The system includes a charged particle beam, a charged particle beam entrance for passing the charged particle beam, a neutron generating part for generating a neutron beam through a nuclear reaction with the charged particle beam, and a neutron generating part for adjusting the neutron beam generated by the neutron generating part The flux and quality beam shaping body and the beam exit adjacent to the beam shaping body, wherein the radiation detection system includes a radiation detection device, and the radiation detection device is used for real-time detection of neutron beam irradiated instantaneous gamma rays. Another aspect of the present invention is to provide a radiation detection method for a neutron capture therapy system that improves the accuracy of the neutron beam irradiation dose of the neutron capture therapy system and can detect fault locations in time. |