Abstract
Detector systems for the measurement of radioactivity in various fields of applications need to be calibrated in terms of efficiency by means of radioactive sources of a given radionuclide with known activity. It is the task of national metrology institutes (NMIs) and other calibration laboratories to provide corresponding activity standards which are required in nuclear medicine, environmental radioactivity, industry, and several other research areas.
This chapter describes important methods for primary and secondary activity standardization as well as ways to establish the traceability to primary standards and an international comparability of activity standards.
References
Baerg AP, Munzenmayer K, Bowes GC (1976) Live-timed anti-coincidence counting with extending dead-time circuitry. Metrologia 12:77–80
Ballaux C (1983) High-efficiency γ-ray-detection systems for radionuclide metrology. Int J Appl Radiat Isot 34:493–499
Bobin C (2007) Primary standardization of activity using the coincidence method based on analogue instrumentation. Metrologia 44:S27–S31
Bobin C, Bouchard J (2006) A 4π(LS)β–γ coincidence system using a TDCR apparatus in the β-channel. Appl Radiat Isot 64:124–130
Bobin C, Bouchard J, Thiam C, Ménesguen Y (2014) Digital pulse processing and optimization of the front-end electronics for nuclear instrumentation. Appl Radiat Isot 87:195–199
Broda R, Cassette P, Kossert K (2007) Radionuclide metrology using liquid scintillation counting. Metrologia 44:S36–S52
CIPM MRA (1999) CIPM Mutual Recognition Arrangement. http://www.bipm.org/en/cipm-mra/
CMC (2010) The BIPM database of the calibration and measurement capabilities. http://kcdb.bipm.org/appendixC/
Collé R (2007) Classical radionuclide calorimetry. Metrologia 44:S118–S126
Evans RD (1955) The atomic nucleus. McGraw-Hill Inc, New York
Grau Malonda A (1999) Free parameter models in liquid scintillation counting. Colección Documentos Ciemat
Grupen C. Contribution to this handbook
JCGM 200 (2012) International vocabulary of metrology – basic and general concepts and associated terms (VIM), 3rd edn
Karam L (2007) Application of the CIPM MRA to radionuclide metrology. Metrologia 44:S1–S6
KCDB (2010) The BIPM key comparison database. http://kcdb.bipm.org/AppendixB/KCDB_ApB_search.asp
Magill, J., Dreher, R., Sóti, Zs Karlsruher Nuklidkarte/Chart of the Nuclides, 10th edn. Nucleonica GmbH, Karlsruhe, 2018
NCRP (1985) National Council on Radiation Protection and Measurements; NCRP Report No. 58. A Handbook of Radioactivity Measurements Procedures; Bethesda
Pommé S (2007) Methods for primary standardization of activity. Metrologia 44:S17–S26
PTB (2018), Activity standards., https://www.ptb.de/cms/fileadmin/internet/fachabteilungen/abteilung_6/6.1/6.13/katalog_en.pdf
Ratel G (2007) The Système international de Référence and its application in key comparisons. Metrologia 44:S7–S16
Schrader H (2007) Ionization chambers. Metrologia 44:S53–S66
Sibbens G, Altzitzoglou T (2007) Preparation of radioactive sources for radionuclide metrology. Metrologia 44:S71–S78
Winkler G, Pavlik A (1983) Some aspects of activity measurements with NaI(Tl) well-type detectors. International Journal for Applied Radiation and Isotopes 34:547–553
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Arnold, D., Kossert, K., Nähle, O.J. (2021). Calibration of Radioactive Sources. In: Fleck, I., Titov, M., Grupen, C., Buvat, I. (eds) Handbook of Particle Detection and Imaging. Springer, Cham. https://doi.org/10.1007/978-3-319-93785-4_9
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