Browse > Article

Determination of Microdosimetric Quantities of Several Neutron Calibration Fields at KAERI  

Kim, B.H. (Korea Atomic Energy Research Institute)
Kim, J.S. (Korea Atomic Energy Research Institute)
Kim, J.L. (Korea Atomic Energy Research Institute)
Chang, S.Y. (Korea Atomic Energy Research Institute)
Cho, G. (Korea Advanced Institute of Science and Technology)
McDonald, J.C. (Pacific Northwest National Laboratory)
Publication Information
Journal of Radiation Protection and Research / v.28, no.4, 2003 , pp. 327-335 More about this Journal
Abstract
The commercially available neutron survey meter, the REM500, which uses a tissue equivalent proportional counter (TEPC) and the self-constructed TEPC were used to determine the microdosimetric quantities of several neutron calibration fields at Korea Atomic Energy Research Institute (KAERI). Microdosimetric spectra, absorbed dose, dose equivalent as well as quality factor were derived and compared with several neutron fields which were produced by using the shadow objects to make neutron scattered and being used as a kind of realistic neutron calibration fields at KAERI. The response of REM500 as a function of mean energy was evaluated with these neutron fields using the counts measured and the predetermined reference value. The response of the self-made TEPC and the REM500 was compared using one of the neutron calibration filelds of a $^{252}Cf$ source. The reference quantities of scattered neutron calibration fields were determined using a Bonner Sphere (BS). The value of frequency-mean lineal energy, dose-mean lineal energy and quality factor of two $^{252}Cf$ sources (unmoderated and $D_2O$ moderated) were determined to check the differences in the reference neutron fields between KAERI and Pacific Northwest National Laboratory (PNNL, USA) and the results were in good agreement within 1%. It means that there is no big difference in dosimetric quantifies of neutron calibration fields of two laboratories.
Keywords
microdosimetric quantity; tissue equivalent proportional counter; neutron calibration fields;
Citations & Related Records
연도 인용수 순위
  • Reference
1 International Commission on Radiation Units Measurement, Microdosimetry, ICRU 36 (1983)
2 J.C. Liu, Evaluation of a Microdosimetricbased Neutron Instrument, Radiat. Prot. Dosim. 88(4), 323-328 (2000)
3 International Organization for Standardization, Neutron Reference Radiations for Calibrating Neutron Measuring Devices used for Radiation Protection Purposes and for Determining their Response As a Function of Neutron Energy, International Standard ISO 8529 (1989)
4 International Organization for Standardization, Reference Neutron Radiations - Part 3 : Calibration of Area and Personal Dosimeters and Determination of their Response as a Function of Neutron Energy and Angle of Incidence, ISO 8529-3 (1998)
5 T.W. Armstrong, Stopping Power and Range, ORNL-4869 (1996)
6 J.C. Liu, F. Hajnal, C.S. Sims and J. Kuiper, Neutron Spectral Measurements at ORNL, Radiat. Prot. Dosim.30(3), 169-178 (1990)
7 Health Physics Instrument, Operation and Repair Manual: Model REM SOD Neutron Survey Meter (1993)
8 International Organization for Standardization, Reference Neutron Radiations : Characteristics and Methods of Production of Simulated Workplace Neutron Fields, ISO 12789 (2000)
9 ICRP, Recommendations of the ICRP, ICRP Publication 26, Ann. ICRP 1(3), Oxford: Pergamon Press (1977)
10 B.H. Kim, J.L. Kim, S.Y. Chang and G. Cho, Scattered Neutron Calibration Fields of KAERI, J. Nucl. Sci.Technol. Supplement 1, 781-784 (2000)
11 ICRP and ICRU, Conversion Coefficients for Use in Radiological Protection Against External Radiation, Report of the Joint Task Group, ICRP 74(1997), ICRU 57 (1998)
12 D.J. Thomas and G.C. Taylor, Response Function Measurements for the REM 500: a Microdosimetric Counter Based Area Survey Instrument, in: Proc. Int'l Conf on Radiat. Dosim and Safety, Mar. 31-Apr. 2, Taipei, Taiwan, 285-289 (1997)
13 R.L.Bramlett, R.J. Ewing, and T. Bonner, A New Type of Neutron Spectrometer, Nucl. Inst. Meth, (9), 1-12 (1960)