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The significance of variations in the angular correction factor in in-situ gamma spectrometry

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The significance of variations in the angular correction factor in in-situ gamma spectrometry. / MacDonald, J; Gibson, CJ; Fish, Peter et al.
In: Journal of Radiological Protection, Vol. 18, No. 1, 1998, p. 37-42.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

MacDonald, J, Gibson, CJ, Fish, P & Assinder, D 1998, 'The significance of variations in the angular correction factor in in-situ gamma spectrometry', Journal of Radiological Protection, vol. 18, no. 1, pp. 37-42. <https://www.ncbi.nlm.nih.gov/pubmed/9594115>

APA

MacDonald, J., Gibson, CJ., Fish, P., & Assinder, D. (1998). The significance of variations in the angular correction factor in in-situ gamma spectrometry. Journal of Radiological Protection, 18(1), 37-42. https://www.ncbi.nlm.nih.gov/pubmed/9594115

CBE

MacDonald J, Gibson CJ, Fish P, Assinder D. 1998. The significance of variations in the angular correction factor in in-situ gamma spectrometry. Journal of Radiological Protection. 18(1):37-42.

MLA

MacDonald, J et al. "The significance of variations in the angular correction factor in in-situ gamma spectrometry". Journal of Radiological Protection. 1998, 18(1). 37-42.

VancouverVancouver

MacDonald J, Gibson CJ, Fish P, Assinder D. The significance of variations in the angular correction factor in in-situ gamma spectrometry. Journal of Radiological Protection. 1998;18(1):37-42.

Author

MacDonald, J ; Gibson, CJ ; Fish, Peter et al. / The significance of variations in the angular correction factor in in-situ gamma spectrometry. In: Journal of Radiological Protection. 1998 ; Vol. 18, No. 1. pp. 37-42.

RIS

TY - JOUR

T1 - The significance of variations in the angular correction factor in in-situ gamma spectrometry

AU - MacDonald, J

AU - Gibson, CJ

AU - Fish, Peter

AU - Assinder, David

PY - 1998

Y1 - 1998

N2 - In situ gamma spectrometry is a powerful method of assessing radioactive contamination in soil. The most widely adopted calibration methodology relates the overall sensitivity of the detector system to the product of three calibration factors: (a) the flux at the detector per unit activity in the ground phi/S(A), (b) the detected count-rate per unit flux incident normally at the detector N0/phi and (c) a correction factor to take into account the angular non-uniformity in response of the detector (Nf/N0). The dependence of the latter factor on the activity distribution with soil depth is generally neglected despite the lack of published evidence to support this. By (i) modelling and (ii) use of published experimental profiles, this work examines the range of Nf/N0 values likely to be encountered in the field. It was found that the use of a fixed angular correction factor is justified given that the maximum errors in the derived activity concentration do not exceed 5% and are far outweighed by other uncertainties.

AB - In situ gamma spectrometry is a powerful method of assessing radioactive contamination in soil. The most widely adopted calibration methodology relates the overall sensitivity of the detector system to the product of three calibration factors: (a) the flux at the detector per unit activity in the ground phi/S(A), (b) the detected count-rate per unit flux incident normally at the detector N0/phi and (c) a correction factor to take into account the angular non-uniformity in response of the detector (Nf/N0). The dependence of the latter factor on the activity distribution with soil depth is generally neglected despite the lack of published evidence to support this. By (i) modelling and (ii) use of published experimental profiles, this work examines the range of Nf/N0 values likely to be encountered in the field. It was found that the use of a fixed angular correction factor is justified given that the maximum errors in the derived activity concentration do not exceed 5% and are far outweighed by other uncertainties.

M3 - Article

VL - 18

SP - 37

EP - 42

JO - Journal of Radiological Protection

JF - Journal of Radiological Protection

SN - 1361-6498

IS - 1

ER -