Performance of a high-pressure xenon ionization chamber for environmental radiation monitoring
- Authors
- Kim, Han-Soo; Park, Se Hwan; Ha, Jang Ho; Kim, Yong Kyun; Kim, Jong-Kyung; Cho, Seung-Yeoun
- Issue Date
- Feb-2008
- Publisher
- Pergamon Press Ltd.
- Keywords
- ionization chamber; environmental radiation; shadow shielding technique; EGSnrc
- Citation
- Radiation Measurements, v.43, no.2-6, pp 659 - 663
- Pages
- 5
- Indexed
- SCIE
SCOPUS
- Journal Title
- Radiation Measurements
- Volume
- 43
- Number
- 2-6
- Start Page
- 659
- End Page
- 663
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/179045
- DOI
- 10.1016/j.radmeas.2007.12.040
- ISSN
- 1350-4487
- Abstract
- High-pressure xenon (HPXe) ionization chambers are ideal for use in uncontrolled environments, as a detector's response has been shown to be uniform over large temperature ranges (20-170 degrees C). A cylindrical HPXe ionization chamber, which was configured with a shielding mesh to improve its energy resolution, was designed on the basis of an EGSnrc simulation code to extract an optimal density of Xe gas and a thickness of the chamber's wall. A Garfield, which was coupled with a Maxwell electric field calculator, was also employed for the electron drift simulations due to the geometry of the adapted shielding mesh. Shielding inefficiency was also calculated. A spherical ionization chamber was also designed to monitor an environmental radiation level and the responses for low dose rates with the fabricated HPXe ionization chamber were compared. A noble gas system was constructed to create a noble gas with a high purity and to inject the noble gas at up to 60 atm. The combination of an oxisorb, a molecular sieve, and a high-temperature getter can minimize the electro-negative impurities, such as the 0,) and N-2 gas, to below about several ppb levels. Preliminary tests such as leakage currents, saturation currents, and gas leak tests were pet-formed. 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 0.906MCi Ra-226 standard source in a calibration room at KAERI.
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