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Bilska, I. (2016).The impact of radioactive radon and its decay products on human health. Medycyna Środowiskowa, 19 (1), 51–56.BilskaI. (2016). The impact of radioactive radon and its decay products on human health. Medycyna Środowiskowa, 19 (1), 51–56.Search in Google Scholar
Kozłowska, B., Walencik-Łata, A., Dorda, J., & Zipper, W. R. (2010). Radon in groundwater and dose estimation for inhabitants in Spas of the Sudety Mountain area, Poland. Appl. Radiat. Isot., 68, 854–857. https://doi.org/10.1016/j.apradiso.2009.12.016.KozłowskaB.Walencik-ŁataA.DordaJ.ZipperW. R. (2010). Radon in groundwater and dose estimation for inhabitants in Spas of the Sudety Mountain area, Poland. Appl. Radiat. Isot., 68, 854–857. https://doi.org/10.1016/j.apradiso.2009.12.016.Search in Google Scholar
Walczak, K., & Zmyślony, M.(2013). Estimation of effective doses derived from radon in selected spa centers that use geothermal waters based on the information of radon concentrations. Medycyna Pracy, 64(2), 193–198. https://doi.org/10.13075/mp.5893/2013/0015.WalczakK.ZmyślonyM. (2013). Estimation of effective doses derived from radon in selected spa centers that use geothermal waters based on the information of radon concentrations. Medycyna Pracy, 64(2), 193–198. https://doi.org/10.13075/mp.5893/2013/0015.Search in Google Scholar
Karpińska, M., Kapała, J., Raciborska, A., & Mnich, S. (2020). Assessment of effective dose from radioactive isotopes contained in mineral waters received by patients during hydrotherapy treatments. Water, 12(1), 97. https://doi.org/10.3390/w12010097.KarpińskaM.KapałaJ.RaciborskaA.MnichS. (2020). Assessment of effective dose from radioactive isotopes contained in mineral waters received by patients during hydrotherapy treatments. Water, 12(1), 97. https://doi.org/10.3390/w12010097.Search in Google Scholar
International Commission on Radiological Protection. (1975). Report of the Task Group on Reference Man. Oxford: Pergamon Press. (ICRP Publication 23).International Commission on Radiological Protection. (1975). Report of the Task Group on Reference Man. Oxford: Pergamon Press. (ICRP Publication 23).Search in Google Scholar
International Commission on Radiological Protection. (2020). Dose coefficients for external exposures to environmental sources. (ICRP Publication 144). Ann. ICRP, 49(2).International Commission on Radiological Protection. (2020). Dose coefficients for external exposures to environmental sources. (ICRP Publication 144). Ann. ICRP, 49(2).Search in Google Scholar
Decay Radiation Database. (2023, August). NuDat3. [computer software]. National Nuclear Data Center. Retrieved August 10, 2023, from https://www.nndc. bnl.gov/nudat3/indx_dec.jsp.Decay Radiation Database. (2023, August). NuDat3. [computer software]. National Nuclear Data Center. Retrieved August 10, 2023, from https://www.nndc. bnl.gov/nudat3/indx_dec.jsp.Search in Google Scholar
De Corte, F., Umans, H., Vandenberghe, D., De Wispelaere, A., & Van Den Haute, P. (2005). Direct gamma-spectrometric measurement of the 226Ra 186.2 keV line for detecting 238U/226Ra disequilibrium in determining the environmental dose rate for the luminescence dating of sediments. Appl. Radiat. Isot., 63(5/6), 589–598. https://doi.org/10.1016/j.apradiso.2005.05.008.De CorteF.UmansH.VandenbergheD.De WispelaereA.Van Den HauteP. (2005). Direct gamma-spectrometric measurement of the 226Ra 186.2 keV line for detecting 238U/226Ra disequilibrium in determining the environmental dose rate for the luminescence dating of sediments. Appl. Radiat. Isot., 63(5/6), 589–598. https://doi.org/10.1016/j.apradiso.2005.05.008.Search in Google Scholar
Federal Ministry for the Environment, Nature Conservation and Consumer Protection. (2018). Procedures manual for monitoring of radioactive substances in the environment and of external radiation. Federal Office for Radiation Protection (BfS) & Physikalisch-Technische Bundesanstalt (PTB).Federal Ministry for the Environment, Nature Conservation and Consumer Protection. (2018). Procedures manual for monitoring of radioactive substances in the environment and of external radiation. Federal Office for Radiation Protection (BfS) & Physikalisch-Technische Bundesanstalt (PTB).Search in Google Scholar
Jednorog, S., Szydłowski, A., Scholz, M., Paduch, M., & Bieńkowska, B. (2012). Preliminary determination of the angular distribution of neutrons emitted from the PF-1000 facility by indium activation. Nukleonika, 57(4), 563–568.JednorogS.SzydłowskiA.ScholzM.PaduchM.BieńkowskaB. (2012). Preliminary determination of the angular distribution of neutrons emitted from the PF-1000 facility by indium activation. Nukleonika, 57(4), 563–568.Search in Google Scholar
Lasheen, Y. F., El-Zakla, T., Seliman, A. F., & Abdel-Rassoul, A. A. (2008). Direct gamma-ray measurement of different radionuclides in the surface water of Suez Canal. Radioprotection, 43(2), 255–272. DOI: 10.1051/radiopro:2008002.LasheenY. F.El-ZaklaT.SelimanA. F.Abdel-RassoulA. A. (2008). Direct gamma-ray measurement of different radionuclides in the surface water of Suez Canal. Radioprotection, 43(2), 255–272. DOI: 10.1051/radiopro:2008002.Open DOISearch in Google Scholar
International Atomic Energy Agency. (2014). A procedure for the rapid determination of 226Ra and 228Ra in drinking water by liquid scintillation counting. Vienna: IAEA. (Analytical Quality in Nuclear Application Series no. 39).International Atomic Energy Agency. (2014). A procedure for the rapid determination of 226Ra and 228Ra in drinking water by liquid scintillation counting. Vienna: IAEA. (Analytical Quality in Nuclear Application Series no. 39).Search in Google Scholar
Köhler, M., Preusse, W., Gleisberg, B., Schäfer, I., Heinrich, T., & Knobus, B. (2002). Comparison of methods for the analysis of 226Ra in water samples. Appl. Radiat. Isot., 56(1/2), 387–392. https://doi.org/10.1016/s0969-8043(01)00219-6.KöhlerM.PreusseW.GleisbergB.SchäferI.HeinrichT.KnobusB. (2002). Comparison of methods for the analysis of 226Ra in water samples. Appl. Radiat. Isot., 56(1/2), 387–392. https://doi.org/10.1016/s0969-8043(01)00219-6.Search in Google Scholar
U.S. Environmental Protection Agency, & EMSL. (1980). Method 903.1: Radium-226 in drinking water radon emanation technique. Prescribed procedures for measurement of radioactivity in drinking water. (EPA/600/4/80/032).U.S. Environmental Protection Agency, & EMSL. (1980). Method 903.1: Radium-226 in drinking water radon emanation technique. Prescribed procedures for measurement of radioactivity in drinking water. (EPA/600/4/80/032).Search in Google Scholar