Personal dosimetry in terms of HP(3):Monte Carlo and experimental studies

Hp(3) has been defined as the operational quantity for eye lens dosimetry. Hp(3)/ka conversion coefficients were evaluated at the GSF (Germany) in a 30×30×15 cm3 4-elements ICRU slab phantom for various energies and incident angles through Monte Carlo. The ISO report 12,794 suggests to employ a PMMA...

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Veröffentlicht in:	Radiation protection dosimetry 2007, Vol.125 (1-4), p.145-148
Hauptverfasser:	Ferrari, P., Gualdrini, G., Bedogni, R., Fantuzzi, E., Monteventi, F., Morelli, B.
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Body Burden Computer Simulation Internationality Italy Models, Biological Models, Statistical Monte Carlo Method Occupational Exposure - analysis Occupational Exposure - prevention & control Radiation Monitoring - methods Radiation Protection - methods Relative Biological Effectiveness Reproducibility of Results Risk Assessment - methods Sensitivity and Specificity Software
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container_title	Radiation protection dosimetry
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creator	Ferrari, P. Gualdrini, G. Bedogni, R. Fantuzzi, E. Monteventi, F. Morelli, B.
description	Hp(3) has been defined as the operational quantity for eye lens dosimetry. Hp(3)/ka conversion coefficients were evaluated at the GSF (Germany) in a 30×30×15 cm3 4-elements ICRU slab phantom for various energies and incident angles through Monte Carlo. The ISO report 12,794 suggests to employ a PMMA water filled phantom, of the same dimensions, for dosemeter calibration in terms of Hp(3). The present paper briefly summarises the main aspects of a study carried out at ENEA-Radiation Protection Institute (Bologna, Italy) to provide practical procedures for the calibration of dosemeters in terms of Hp(3). Tabulations of a new set conversion coefficients and air kerma backscatter factors are provided as a function of energy and incident angle. The paper demonstrates that a more accurate approach to the dosimetric assessment in terms of Hp(3) could be rather simply introduced employing a reduced phantom.
doi_str_mv	10.1093/rpd/ncl385
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source	Oxford University Press Journals All Titles (1996-Current); MEDLINE
subjects	Algorithms Body Burden Computer Simulation Internationality Italy Models, Biological Models, Statistical Monte Carlo Method Occupational Exposure - analysis Occupational Exposure - prevention & control Radiation Monitoring - methods Radiation Protection - methods Relative Biological Effectiveness Reproducibility of Results Risk Assessment - methods Sensitivity and Specificity Software
title	Personal dosimetry in terms of HP(3):Monte Carlo and experimental studies
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