C. Hranitzky scite author profile

The photon energy response of different RADOS (Mirion Technologies) personal dosemeters with MTS-N (LiF:Mg,Ti) and MCP-N (LiF:Mg,Cu,P) thermoluminescence (TL) detectors was investigated. Three types of badges were applied. The irradiation with reference photon radiation qualities N (the narrow spectrum series), and S-Cs and S-Co nuclide radiation qualities, specified in ISO 4037 [International Organization for Standardization (ISO). X and gamma reference radiations for calibrating dosemeters and doserate meters and for determining their response as a function of photon energy. ISO 4037. Part 1-4 (1999)], in the energy range of 16-1250 keV, were performed at the Dosimetry Laboratory Seibersdorf. The results demonstrated that a readout of a single MTS-N or MCP-N detector under the Al filter can be used to determine Hp(10) according to requirements of IEC 61066 [International Electrotechnical Commission (IEC). Thermoluminescence dosimetry systems for personal and environmental monitoring. International Standard IEC 61066 (2006)] for TL systems for personal dosimetry. The new RADOS badge with the experimental type of a holder (i.e. Cu/Al filters) is a very good tool for identifying the radiation quality (photon energy).

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Determination of LiF:Mg,Ti and LiF:Mg,Cu,P TL efficiency for X-rays and their application to Monte Carlo simulations of dosemeter response

Hranitzky

Stadtmann²,

Olko³

2006

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The simulation of response of a new passive area dosemeter for measuring ambient dose equivalent H*(10) for photons has been performed using the Monte Carlo code MCNP and experimentally determined responses of LiF:Mg,Ti and LiF:Mg,Cu,P thermoluminescent (TL) detectors for hard-filtered X-ray spectra from 20 to 300 keV and for 137Cs and 60Co gamma radiation. Relative TL efficiency for both types of detectors, determined in experiments with bare detectors and similar Monte Carlo simulations, compared favourably with prediction of microdosimetric models for proposed microdosimetric target sizes in the range of 20-40 nm. The concluding verification experiment showed small deviations between measured and simulated dosemeter energy response values in the range of a few percent.

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Intercomparison of radiation protection devices in a high-energy stray neutron field, Part I: Monte Carlo simulations

Rollet¹,

Agosteo²,

Fehrenbacher³

et al. 2009

Radiation Measurements

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EURADOS intercomparison of passive H*(10) area dosemeters 2014

Dombrowski

Duch

Hranitzky

et al. 2017

Radiation Measurements

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In an intercomparison, the performance of 32 passive area dosimetry systems was tested under real environmental conditions. • The dosemeters were exposed at dosimetry reference sites of PTB, while independent H*(10) reference values were established. • The response of the systems to terrestrial as well as to secondary cosmic radiation was measured. • The results provide information on the accuracy of typical passive area dose measurements in Europe. • Deviations of the absolute dose values of different systems from each other are partly caused by the dissimilar response to cosmic radiation.

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C. Hranitzky

Intercomparison of radiation protection devices in a high-energy stray neutron field, Part II: Bonner sphere spectrometry

Energy response of different types of RADOS personal dosemeters with MTS-N (LiF:Mg,Ti) and MCP-N (LiF:Mg,Cu,P) TL detectors

Determination of LiF:Mg,Ti and LiF:Mg,Cu,P TL efficiency for X-rays and their application to Monte Carlo simulations of dosemeter response

Intercomparison of radiation protection devices in a high-energy stray neutron field, Part I: Monte Carlo simulations

EURADOS intercomparison of passive H*(10) area dosemeters 2014

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