Intercomparison of neutron personal dose equivalent measured by thermoluminescence dosimeters

An intercomparison of neutron personal dose equivalent measured by the Harshaw thermoluminescence neutron dosimeters (TLDs) between the National Institute of Metrology of China (NIM) and the Institute for Nuclear Science and Technology of Vietnam (INST) was performed. Three sets of TLDs (each set co...

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Bibliographic Details
Published in:Applied radiation and isotopes 2024-03, Vol.205, p.111175-111175, Article 111175
Main Authors: Le, Ngoc-Thiem, Hoang, Thanh-Phi-Hung, Hui, Zhang, Bui, Duc-Ky, Nguyen, Ngoc-Quynh, Hoang, Van-Khanh, Dinh, Tien-Hung, Nguyen, Minh-Cong, Cao, Van-Hiep, Tran, Hoai-Nam
Format: Article
Language:English
Subjects:
4500-type TLD reader
Harshaw
INST
NIM
Trumpet curve
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Summary:An intercomparison of neutron personal dose equivalent measured by the Harshaw thermoluminescence neutron dosimeters (TLDs) between the National Institute of Metrology of China (NIM) and the Institute for Nuclear Science and Technology of Vietnam (INST) was performed. Three sets of TLDs (each set consisting of five TLDs) were prepared for each laboratory. Each set was then irradiated to the corresponding same nominal standard value of neutron personal dose equivalent, Hp(10)n−stdi, of 1.0, 2.0, and 3.0 mSv, respectively at these two laboratories. The irradiated TLDs were then read-out at the INST using the Harshaw 4500-type TLD reader to obtain neutron personal dose equivalents at the NIM, Hp(10)n−NIMi and at the INST, Hp(10)n−INSTi, which are corresponding to different values of Hp(10)n−stdi. The TLDs’ responses to different scattered components of neutrons in these two fields are also discussed. Comparisons between the corresponding pair values of Hp(10)n−NIMi and Hp(10)n−INSTi show good agreements within 10% with the standard uncertainty of 12.5% (k = 1). The measured values of Hp(10)n−NIMi and Hp(10)n−INSTi are satisfied the Trumpet curve criteria. This implies that the TLDs can be used for safety assessment of occupational neutron personal dose equivalents. This intercomparison result also confirms the capabilities of these two laboratories (i.e., NIM, INST) on deliveries of neutron personal dose equivalent standard values for calibrations. •A comparison of Hp□(10) for neutrons was performed between INST and NIM.•The Hp□(10) discrepancy is within 10% with the standard uncertainty of 12.5%.•The discrepancy is ascribed to the algorithm for different scattering components.•The algorithm is advised to be more qualified in complicated radiation fields.•INST and NIM are capable to deliver standard values of Hp□(10) for neutrons.
ISSN:0969-8043
1872-9800
DOI:10.1016/j.apradiso.2024.111175