Investigation of xenon-filled tube breakdown voltage and delay response as possible dosimetric parameters for small gamma ray air kerma rates
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2020
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This paper presents experimental results of dynamic breakdown voltage and delay response as functions of gamma ray air kerma rate for xenon-filled tube at 2.7 mbar pressure. Gamma ray air kerma rate range was considered from 123 nGy h–1 up to 12.3 mGy h–1 in order to investigate the possibility of the application of this tube in gamma radiation dosimetry. It was shown that the variations of the above-mentioned parameters are considerable up to the dose rate of 1.23 μGy h–1, which points to the possibility for application in small dose rate gamma ray dosimetry. Physical processes that make dominant impact to dynamic breakdown voltage and delay response during xenon-filled tube irradiation are also discussed in the paper.
Izvor:
Radiation Protection Dosimetry, 2020, 190, 1, 84-89
DOI: 10.1093/rpd/ncaa075
ISSN: 0144-8420
PubMed: 32744625
WoS: 000581760800010
Scopus: 2-s2.0-85089114529
Institucija/grupa
VinčaTY - JOUR AU - Pejović, Milić AU - Živanović, Emilija AU - Živanović, Miloš Z. PY - 2020 UR - https://vinar.vin.bg.ac.rs/handle/123456789/9122 AB - This paper presents experimental results of dynamic breakdown voltage and delay response as functions of gamma ray air kerma rate for xenon-filled tube at 2.7 mbar pressure. Gamma ray air kerma rate range was considered from 123 nGy h–1 up to 12.3 mGy h–1 in order to investigate the possibility of the application of this tube in gamma radiation dosimetry. It was shown that the variations of the above-mentioned parameters are considerable up to the dose rate of 1.23 μGy h–1, which points to the possibility for application in small dose rate gamma ray dosimetry. Physical processes that make dominant impact to dynamic breakdown voltage and delay response during xenon-filled tube irradiation are also discussed in the paper. T2 - Radiation Protection Dosimetry T1 - Investigation of xenon-filled tube breakdown voltage and delay response as possible dosimetric parameters for small gamma ray air kerma rates VL - 190 IS - 1 SP - 84 EP - 89 DO - 10.1093/rpd/ncaa075 ER -
@article{ author = "Pejović, Milić and Živanović, Emilija and Živanović, Miloš Z.", year = "2020", abstract = "This paper presents experimental results of dynamic breakdown voltage and delay response as functions of gamma ray air kerma rate for xenon-filled tube at 2.7 mbar pressure. Gamma ray air kerma rate range was considered from 123 nGy h–1 up to 12.3 mGy h–1 in order to investigate the possibility of the application of this tube in gamma radiation dosimetry. It was shown that the variations of the above-mentioned parameters are considerable up to the dose rate of 1.23 μGy h–1, which points to the possibility for application in small dose rate gamma ray dosimetry. Physical processes that make dominant impact to dynamic breakdown voltage and delay response during xenon-filled tube irradiation are also discussed in the paper.", journal = "Radiation Protection Dosimetry", title = "Investigation of xenon-filled tube breakdown voltage and delay response as possible dosimetric parameters for small gamma ray air kerma rates", volume = "190", number = "1", pages = "84-89", doi = "10.1093/rpd/ncaa075" }
Pejović, M., Živanović, E.,& Živanović, M. Z.. (2020). Investigation of xenon-filled tube breakdown voltage and delay response as possible dosimetric parameters for small gamma ray air kerma rates. in Radiation Protection Dosimetry, 190(1), 84-89. https://doi.org/10.1093/rpd/ncaa075
Pejović M, Živanović E, Živanović MZ. Investigation of xenon-filled tube breakdown voltage and delay response as possible dosimetric parameters for small gamma ray air kerma rates. in Radiation Protection Dosimetry. 2020;190(1):84-89. doi:10.1093/rpd/ncaa075 .
Pejović, Milić, Živanović, Emilija, Živanović, Miloš Z., "Investigation of xenon-filled tube breakdown voltage and delay response as possible dosimetric parameters for small gamma ray air kerma rates" in Radiation Protection Dosimetry, 190, no. 1 (2020):84-89, https://doi.org/10.1093/rpd/ncaa075 . .