2019 Fall Meeting

Presentation information

Oral presentation

IV. Nuclear Plant Technologies » 404-1 Techniques for Non-Proliferation, Safeguards and Nuclear Security

[1I08-13] NDA Techniques for Non-Proliferation, Safeguards and Nuclear Security

Wed. Sep 11, 2019 2:45 PM - 4:25 PM Room I (Common Education Bildg. 2F D21)

Chair:Hironobu Unesaki(Kyoto Univ.)

3:30 PM - 3:45 PM

[1I11] Development of a Neutron Resonance Transmission Analysis using a Laser Driven Neutron Source

(1)Applicability of Laser Driven Neutron Source for Neutron Resonance Transmission Analysis

*Tohn Takahashi1, Mitsuo Koizumi1, Fumiaki Ito1, Satoshi Suzuki1, Akifumi Yogo2, Yasunobu Arikawa2, Yuki Abe2, Hiroaki Nishimura2,4, Jun-ichi Hori3, Tadafumi Sano5 (1. JAEA, 2. Osaka Univ., 3. Kyoto Univ., 4. Fukui Univ. of Tech., 5. Kinki Univ.)

Keywords:Nuclear nonproliferation, Neutron Resonance Transmission Analysis, Laser Driven Neutron Source

Some nondestructive analysis methods for validation of highly radioactive nuclear material such as spent fuels have been developed for safeguards. Nuclear Resonance Transmission Analysis (NRTA), particularly, can measure the density of each isotope of fissile and is considered to be a powerful method for analysis of solid materials like fuel debris. However, it is not easy to install into exist facilities due to a large Time-of-Flight (TOF) system required for the precise measurement. So, we have proposed a compact NRTA combined with Laser Driven Neutron Source (LDNS). TOF system would be shortened less than 5 m because of extremely short pulse width of LDNS. JAEA and Institute of Laser Engineering at Osaka university started a collaboration to demonstrate a short-range TOF measurement using LDNS as a fundamental study for future practical application.