1. Development and Characterization of Real-Time Wide-Energy Range Personal Neutron Dosimeter
- Author
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Toshiya Yamano, Norio Tsujimura, Takashi Nakamura, Eisuke Okamoto, and Toshikazu Suzuki
- Subjects
Bonner sphere ,Physics ,Range (particle radiation) ,Dosimeter ,Nuclear fuel ,Physics::Instrumentation and Detectors ,Astrophysics::High Energy Astrophysical Phenomena ,Nuclear engineering ,Nuclear Theory ,Physics::Medical Physics ,Radiochemistry ,Detector ,Neutron temperature ,Nuclear Energy and Engineering ,Neutron detection ,Neutron ,Nuclear Experiment - Abstract
The authors developed a real-time personal neutron dosimeter which could give neutron dose equivalent over wide energy region from thermal to 10 odd MeV by using 2 silicon detectors, fast neutron sensor and slow neutron sensor. The energy response of this dosimeter was evaluated under thermal neutron field, monoenergetic neutron field between 200keV and 15MeV, and moderated 252Cf neutron field. The neutron dose equivalent was estimated by adding neutron dose equivalent below 1MeV given by slow neutron sensor and that above 1MeV by fast neutron sensor. It was verified from various field tests that this dosimeter is able to give neutron dose equivalent within a factor of 2 margin of accuracy in reactor, accelerator, fusion research and nuclear fuel handling facilities. This dosimeter has more than one order higher sensitivity than conventional personal neutron dosimeters and is insensitive to γ-rays up to about 500 mSv/h. This dosimeter will soon be commercially available as a personal dosimeter which gives neutron and γ-ray dose equivalents simultaneously by installing γ-ray silicon sensor.
- Published
- 1994