Strengthening basic research in various fields

Background Large-scale facilities are crucial for basic science Goal Stable operation of large-scale nuclear research facilities Significance Meeting the special mission of a government-funded institute by stably providing science communities and companies with government-funded facilities Full utilization of nuclear facilities for strengthening the basic research capacity Strengthening basic research in various fields (Goal) Development of convergence and basic-core technologies incorporating 6T and nuclear technologies (Activation of Core Technology Development) Development of quantum materials by using complex particle beams including neutrons, protons, and electrons, research on dynamics of materials and biological behavior under extreme conditions such as ultra-high temperature, ultra-low temperature, ultra-high pressure, ultra-low vacuum, and high-radiation dose, and identification of protein structure and development of anti-cancer/diagnosis materials Strengthening Basic Research Capacity of Nuclear R&D and Applications) Production of nuclear reaction data and radiation-material interaction data Research Topics Comprehensive research on national core materials Development of quantum materials by using complex particle beams Development and validation of nuclear reaction and structure data required in nuclear R&D and applications Study on structure, transition, and reaction data of atoms, molecules, and plasma Research on interactions between radiation and materials Development of nuclear, atom, molecular, and plasma transport analysis technology for fission, fusion, accelerator, and radiation applications Development of biomaterials by modifying molecules

Research Facilities

Test facility for development of electron accelerator The test facility for electron accelerator development is used in the design, manufacturing, and commissioning of 0.2 - 25 MeV electron accelerators for nondestructive testing, cancer treatment, and basic science. It is equipped with various electron accelerators such as S-band and X-band accelerators.

Research Facilities

20 MeV superconducting electron linear accelerator The 20 MeV electron accelerator is the only superconducting high-frequency electron linear accelerator in Korea, generating a maximum average output power of 100 kW. The accelerated 2 MeV electron beam is used in research fields to change the chemical, physical, and biological properties of industrial crops. The 20 MeV electron beam bombarding neutron generation target produces fast neutrons which are used for neutron cross section measurement through the neutron time-of-flight facility. The fast neutron cross section data serve as a basis for various nuclear R&D such as reactor development, spent fuel, radioactive waste disposal, decommissioning nuclear facilities, radiation shielding, nuclear waste transmutation, and medical isotope production.

Strengthening basic research in various fields

Strengthening basic research in various fields

"Basic Science and Research" a detailed list

Promotion Strategy

Research Facilities

Research Facilities

Research Facilities