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Plasma and Fusion Research
Volume 2, S1083 (2007)
Regular Articles
- Tohoku University, Sendai 980-8579, Japan
- 1)
- Osaka University, Suita 565-0871, Japan
- 2)
- Japan Atomic Energy Agency, Tokai, Naka, Ibaraki 319-1195, Japan
Abstract
A neutron spectrometer system based on TOF (time of flight) measurement has been studied for determination of fuel density ratio in ITER. The effective collimator diameter was examined against both the saturation of the first detector and measurement efficiency as a spectrometer to achieve the sufficient statistics with required time resolution. Relation between collimator diameter and lower limit measurement efficiency was obtained. Measurement efficiency for every design of TOF spectrometer was calculated with MCNP. Those results indicate that two or three collimators of different size are needed to attain statistics errors within 10 %. An experiment to test the TOF spectrometer and to evaluate the system efficiency was conducted using accelerator neutron source. The result shows that both DD and DT neutrons are measured separately and simultaneously with a fast discrimination electronics system. The fast discrimination improves the counting capability by one order of magnitude.
Keywords
fusion, plasma diagnostic, neutron, time of flight, spectrometer
Full Text
References
- [1] K. Okada et al., Rev. Sci. Instr. 77, 10E726 (2006).
- [2] M. Hoek et al., Fusion Engineering and Design 45, 437 (1999).
- [3] J.F. Briesmeister (Ed.), MCNP a general Monte Carlo n-particle transport code, version 4C, LA-13709, Los Alamos National Laboratory, 2000.
This paper may be cited as follows:
K. OKADA, K. KONDO, N. KUBOTA, K. OCHIAI, S. SATO, T. NISHITANI, C. KONNO, A. OKAMOTO, S. KITAJIMA and M. SASAO, Plasma Fusion Res. 2, S1083 (2007).