Abstract
Neutrons have been used in a wide field of applications by using various neutron sources. Material science is one of the widest research fields. The activity is supported by nuclear research reactors and high-intensity spallation neutron sources based on a high-intensity proton accelerator. However, it is desired to perform a measurement when researchers want to do and to perform adventuresome experiments that have not yet confirmed its importance. Furthermore, trial and error measurements are necessary to improve a measurement method. Compact accelerator-driven neutron sources are suitable for such usage and in some cases can complement the measurement at a large facility. The use of the compact neutron source has sometimes led to new methods. Other than material science, a new application of soft error acceleration test has been performed at the compact accelerator-driven neutron sources. Another neutron application is radiation therapy called as boron neutron capture therapy. In this field, nuclear reactor neutron sources have been used but many of them shut down. It was desired to construct the BNCT facility near a hospital. Therefore, BNCT facilities based on the compact accelerator have been constructed in the world. Here, the neutron sources and new methods and applications developing at compact accelerator-driven neutron sources are introduced.
Highlights
Neutrons have been used for neutron science, medical treatment, and irradiation
New methods were developed in neutron scattering for material science; soft error test of semiconductor device has been executed and boron neutron capture therapy is being promoted by using neutron sources based on compact
Neutron intensity and energy range required for neutron applications, accelerator-based neutron sources, neutron applications recently developing at compact accelerator-driven neutron sources (CANSs): small and medium angle neutron scattering, neutron imaging, soft error test, and Boron neutron capture therapy (BNCT) application, are introduced
Summary
Neutron sources are shifting from research nuclear reactors to accelerator-driven neutron sources. Large neutron sources based on a high-energy proton accelerator have been constructed for neutron science applications. Compact accelerator-driven neutron sources have been constructed, under construction and planning. The compact accelerator-driven neutron sources are used for various applications. New methods were developed in neutron scattering for material science; soft error test of semiconductor device has been executed and boron neutron capture therapy is being promoted by using neutron sources based on compact
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