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Development of a High Pressure Xe Ionization Chamber for Environmental Radiation Spectroscopy

Authors
Kim, Han SooKim, Yong KyunPark, Se HwanHa, Jang HoKim, Jong KyungKang, Sang MookCho, Seung YeonKim, Do HyunChung, 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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