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1.
Kara, E. & Woda, C.*: Correlation between thermoluminescence and optically stimulated luminescence signal in BeO. Radiat. Meas. 170:107049 (2024)
2.
Kara, E. & Woda, C.: Further characterization of BeO detectors for applications in external and medical dosimetry. Radiat. Meas. 165:106950 (2023)
3.
Rabus, H.* et al.: Corrigendum on H. Rabus et al. “Consistency checks of results from a Monte Carlo code intercomparison for emitted electron spectra and energy deposition around a single gold nanoparticle irradiated by X-rays” [Radiat. Meas. 147 (2021) 106637] (Radiation Measurements (2021) 147, (S1350448721001487), (10.1016/j.radmeas.2021.106637)). Radiat. Meas. 168:106976 (2023)
4.
De Saint-Hubert, M.* et al.: The influence of nuclear models and Monte Carlo radiation transport codes on stray neutron dose estimations in proton therapy. Radiat. Meas. 150:106693 (2022)
5.
Huet, C.* et al.: Monte Carlo calculation of organ and effective doses due to photon and neutron point sources and typical X-ray examinations: Results of an international intercomparison exercise. Radiat. Meas. 150:106695 (2022)
6.
Rabus, H.* et al.: Lessons learnt from the recent EURADOS intercomparisons in computational dosimetry. Radiat. Meas. 156:106822 (2022)
7.
Brall, T. ; Mares, V. ; Bütikofer, R.* & Rühm, W.: Assessment of secondary neutrons from galactic cosmic rays at mountain altitudes-Geant4 simulations and ground-based measurements of neutron energy spectra. Radiat. Meas. 144:106592 (2021)
8.
Discher, M. ; Woda, C. ; Ekendahl, D.* ; Rojas-Palma, C.* & Steinhäusler, F.*: Evaluation of physical retrospective dosimetry methods in a realistic accident scenario: Results of a field test. Radiat. Meas. 142:106544 (2021)
9.
Discher, M. ; Eakins, J.* ; Woda, C. & Tanner, R.*: Translation of the absorbed dose in the mobile phone to organ doses of an ICRP voxel phantom using MCNPX simulation of an Ir-192 point source. Radiat. Meas. 146:106603 (2021)
10.
Kim, H.* ; Discher, M.* ; Kim, M.C.* ; Woda, C. & Lee, J.*: Thermally assisted optically stimulated luminescence protocol of mobile phone substrate glasses for accident dosimetry. Radiat. Meas. 146:106625 (2021)
11.
Pagonis, V.* ; Woda, C. & Discher, M.*: Quantitative analysis of thermoluminescence signals of glass displays from mobile phones. Radiat. Meas. 146:106614 (2021)
12.
Rabus, H.* et al.: Consistency checks of results from a Monte Carlo code intercomparison for emitted electron spectra and energy deposition around a single gold nanoparticle irradiated by X-rays. Radiat. Meas. 147:106637 (2021)
13.
Ulanowski, A. ; Hiller, M. & Woda, C.: Absorbed doses in bricks and TL-dosimeters due to anthropogenic and natural environmental radiation sources. Radiat. Meas. 140:106458 (2021)
14.
Zankl, M. ; Eakins, J.* ; Gomez Ros, J.M.* & Huet, C.*: The ICRP recommended methods of red bone marrow dosimetry. Radiat. Meas. 146:106611 (2021)
15.
Zankl, M. et al.: EURADOS intercomparison on the usage of the ICRP/ICRU adult reference computational phantoms. Radiat. Meas. 145:106596 (2021)
16.
Zankl, M. et al.: Monte Carlo calculation of organ dose coefficients for internal dosimetry: Results of an international intercomparison exercise. Radiat. Meas. 148:106661 (2021)
17.
Ambrožová, I.* et al.: REFLECT - Research flight of EURADOS and CRREAT: Intercomparison of various radiation dosimeters onboard aircraft. Radiat. Meas. 137:106433 (2020)
18.
Bandalo, V. et al.: Performance of the BeOSL eye lens dosemeter with radiation protection glasses. Radiat. Meas. 131:106235 (2020)
19.
Brall, T. et al.: Monte Carlo simulation of the CERN-EU High Energy Reference Field (CERF) facility. Radiat. Meas. 133:106294 (2020)
20.
Discher, M.* et al.: PTTL characteristics of glass samples from mobile phones. Radiat. Meas. 132:106261 (2020)
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