1. Personal Dosimetry in Continuous Photon Radiation Fields With the Dosepix Detector
- Author
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Xavier Llopart, R. Behrens, Lukas Tlustos, H. Zutz, Christian Fuhg, P. Hufschmidt, Thilo Michel, Dennis Haag, Gisela Anton, Sebastian Schmidt, Michael Campbell, Rafael Ballabriga, O. Hupe, Jürgen Roth, W. Wong, and Franziska Eberle
- Subjects
Physics ,Nuclear and High Energy Physics ,Health Physics and Radiation Effects ,Photon ,010308 nuclear & particles physics ,Equivalent dose ,Coefficient of variation ,Photon energy ,Radiation ,01 natural sciences ,Spectral line ,Nuclear Energy and Engineering ,0103 physical sciences ,Dosimetry ,Electrical and Electronic Engineering ,Atomic physics ,Detectors and Experimental Techniques ,Energy (signal processing) - Abstract
First measurements characterizing dosimetric properties of a dosimetry system designed for the purpose of active personal dosimetry for photons with mean energies from 12.4 to 1250 keV according to Physikalisch-Technische Bundesanstalt (PTB) requirements are presented. The system consists of three Dosepix detectors, which is a hybrid, pixelated, photon-counting X-ray detector. The energy and angular dependence of the normalized response and the coefficients of variation of the personal dose equivalents $H_{\mathrm{p}}{(10)}$ and $H_{\mathrm{p}}{(0.07)}$ are determined on an International Organization for Standardization (ISO) water slab phantom in continuous reference photon radiation fields according to ISO 4037-1 and ISO 4037-3. The energy response is presented for the narrow spectra N-15 to N-300 and the radiation qualities S-Cs and S-Co for angles of incidence of 0°, 30°, and ±60°. The highest deviation of the response from the reference response is found at N-60, −60° with 1.179 ± 0.007 (standard deviation) for $H_{\mathrm{p}}{(10)}$ . The energy range of use for $H_{\mathrm{p}}{(10)}$ is expected to extend from 12.4 to 1250 keV. For the personal dose equivalent $H_{\mathrm{p}}{(0.07)}$ , the normalized response at ±60° is below the lower limit for N-15, N-20, and N-25. It results in an energy range of use from 24.6 to 1250 keV. The coefficient of variation increases with increasing photon energy and stays below 1% for all measurements.
- Published
- 2021