Development of a High Pressure Xe Ionization Chamber for Environmental Radiation Spectroscopy
- Authors
- Kim, Han Soo; Kim, Yong Kyun; Park, Se Hwan; Ha, Jang Ho; Kim, Jong Kyung; Kang, Sang Mook; Cho, Seung Yeon; Kim, Do Hyun; Chung, Eui Kwon
- Issue Date
- Jun-2008
- Publisher
- Atomic Energy Society of Japan/Nihon Genshiroku Gakkai
- Keywords
- high-pressure Xe; ionization chamber; environmental radiation; shadow shielding technique; EGSnrc; Garfield; shielding mesh
- Citation
- Journal of Nuclear Science and Technology, pp 383 - 386
- Pages
- 4
- Indexed
- SCIE
SCOPUS
- Journal Title
- Journal of Nuclear Science and Technology
- Start Page
- 383
- End Page
- 386
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/178549
- DOI
- 10.1080/00223131.2008.10875869
- ISSN
- 0022-3131
1881-1248
- Abstract
- A High Pressure Xenon ionization chamber is a promising radiation detector for environmental radiation measurement due to its radiation hardness, its physical rigidity, and its capability of operation at a high temperature up to about 170 degrees C. A cylindrical high pressure xenon ionization chamber, which was configured with a shielding mesh to improve its energy resolution, was designed on the basis of an electron transfer simulation code (EGSnrc) to extract an optimal density of Xe gas and a thickness of the chamber wall. An electron drift simulation code, Garfield, which was coupled with a Maxwell electric filed calculator, was also employed for the electron drift simulations due to the geometry of the shielding mesh. Shielding inefficiency was also calculated. A spherical ionization chamber was also designed and fabricated to monitor environmental radiation. A noble gas system was constructed to create a noble gas with a high purity and to inject the noble gas Lip to 60 atm. The combination of an oxygen absorbent (Oxisorb), a molecular sieve, and a high temperature getter can minimize the electro-negative impurities, such as the O-2 and N-2 gas, to below about several ppb levels. Preliminary tests such as leakage currents, saturation currents, and gas leak test were performed. The performance of the two fabricated ionization chambers at a low dose rate was tested by using a conventional shadow technique with a NIST certified 33.52 MBq Ra-226 source in the calibration room at KAERI.
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Collections - 서울 공과대학 > 서울 원자력공학과 > 1. Journal Articles

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