This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
UNSCEAR. (2010). UNSCEAR 2008 Report to the General Assembly, with scientific annexes.Vol. 1. New York: UN.UNSCEAR20101New YorkUNSearch in Google Scholar
World Health Organization. (2009). Handbook on indoor radon: A public health perspective. Switzerland: WHO.World Health Organization2009SwitzerlandWHOSearch in Google Scholar
Council of the European Union. (2014). Council Directive 2013/59/EURATOM of 5 December 2013 laying down basic safety standards for protection against the dangers arising from exposure to ionising radiation. (Official Journal of the European Union, L13, 1–73). Brussels: O. J. EU.Council of the European Union2014(Official Journal of the European Union, L13, 1–73).BrusselsO. J. EUSearch in Google Scholar
International Atomic Energy Agency. (2014). Radiation protection and safety of radiation sources: International basic safety standards. Vienna: IAEA.International Atomic Energy Agency2014ViennaIAEASearch in Google Scholar
Kávási, N., Somlai, J., Vigh, T., Tokonami, S., Ishikawa, T., Sorimachi, A., & Kovács, T. (2009). Difficulties in the dose estimate of workers originated from radon and radon progeny in a manganese mine. Radiat. Meas., 44, 300–305. 10.1016/j.radmeas.2009.03.014.KávásiN.SomlaiJ.VighT.TokonamiS.IshikawaT.SorimachiA.KovácsT.2009Difficulties in the dose estimate of workers originated from radon and radon progeny in a manganese mine4430030510.1016/j.radmeas.2009.03.014Open DOISearch in Google Scholar
Somlai, J., Hakl, J., Kávási, N., Szeiler, G., Szabó, P., & Kovács, T. (2011). Annual average radon concentration in the show caves of Hungary. J. Radioanal. Nucl. Chem., 287, 427–433. 10.1007/s10967-010-0841-9.SomlaiJ.HaklJ.KávásiN.SzeilerG.SzabóP.KovácsT.2011Annual average radon concentration in the show caves of Hungary28742743310.1007/s10967-010-0841-9Open DOISearch in Google Scholar
Field, M. S. (2007). Risks to cavers and cave workers from exposures to low-level ionizing a radiation from 222Rn decay in caves. J. Cave Karst Stud., 69, 207–228.FieldM. S.2007Risks to cavers and cave workers from exposures to low-level ionizing a radiation from 222Rn decay in caves69207228Search in Google Scholar
Somlai, J., Torma, Á., Dombovári, P., Kávási, N., Nagy, K., & Kovács, T. (2007). Contribution of 222Rn, 226Ra, 234U and 238U radionuclides to the occupational and patient exposure in Heviz-spas in Hungary. J. Radioanal. Nucl.Chem., 272, 101–106. 10.1007/s10967-006-6837-9.SomlaiJ.TormaÁ.DombováriP.KávásiN.NagyK.KovácsT.2007Contribution of 222Rn, 226Ra, 234U and 238U radionuclides to the occupational and patient exposure in Heviz-spas in Hungary27210110610.1007/s10967-006-6837-9Open DOISearch in Google Scholar
Nagy, K., Kávási, N., Kovács, T., & Somlai, J. (2008). Radon therapy and speleotherapy in Hungary. La Presse Thermale et Climatiqua, 145, 219–225.NagyK.KávásiN.KovácsT.SomlaiJ.2008Radon therapy and speleotherapy in Hungary145219225Search in Google Scholar
Talha, S. A., de Meijer, R. J., Lindsay, R., Newman, R. T., Maleka, P. P., & Hlatshwayo, I. N. (2010). In-field radon measurement in water: a novel approach. J. Environ. Radioact., 101, 1024–1031. 10.1016/j.jenvrad.2010.07.005.TalhaS. A.de MeijerR. J.LindsayR.NewmanR. T.MalekaP. P.HlatshwayoI. N.2010In-field radon measurement in water: a novel approach1011024103110.1016/j.jenvrad.2010.07.00520832920Open DOISearch in Google Scholar
Kitto, M. E., Fielman, E. M., Haines, D. K., Menia, T. A., & Bari, A. (2008). Performance of a commercial radon-in-water measurement kit. J. Environ. Radioact., 99, 1255–1257. 10.1016/j.jenvrad.2008.03.006.KittoM. E.FielmanE. M.HainesD. K.MeniaT. A.BariA.2008Performance of a commercial radon-in-water measurement kit991255125710.1016/j.jenvrad.2008.03.00618420317Open DOISearch in Google Scholar
Becker, K. (2005). Health effects of high radon environments in Central Europe: another test for the LNT hypothesis. Nonlinearity Biol. Toxicol. Med., 1, 3–25.BeckerK.2005Health effects of high radon environments in Central Europe: another test for the LNT hypothesis132510.1080/15401420390844447265161419330110Search in Google Scholar
Nagy, K., Berhés, I., Kovács, T., Kávási, N., Somlai, J., Kovacs, L., Barna, I., & Bender, T. (2009). Study on endocrinological effects of radon speleotherapy on respiratory diseases. Int. J. Radiat. Biol., 85, 281–290. 10.1080/09553000802512550.NagyK.BerhésI.KovácsT.KávásiN.SomlaiJ.KovacsL.BarnaI.BenderT.2009Study on endocrinological effects of radon speleotherapy on respiratory diseases8528129010.1080/0955300080251255019296342Open DOISearch in Google Scholar
Igal Health Spa. (2011). Retrieved July 11, 2015, from http://www.igal.hu/Gyogyfurdo.Igal Health Spa2011Retrieved July 11, 2015, from http://www.igal.hu/GyogyfurdoSearch in Google Scholar
Wein, Gy. (1969). Tectonic review of the neogene-covered areas of Hungary. Acta Geol. Hung., 13, 399–436.WeinGy.1969Tectonic review of the neogene-covered areas of Hungary13399436Search in Google Scholar
Műllerová, M., Kozak, K., Kovács, T., Csordás, A., Grzadziel, D., Holý, K., Mazur, J., Moravcsík, A., Neznal, M., Neznal, M., & Smetanová, I. (2014). Preliminary results of indoor radon survey in V4 countries. Radiat. Prot. Dosim., 160(1/3), 210–213.MűllerováM.KozakK.KovácsT.CsordásA.GrzadzielD.HolýK.MazurJ.MoravcsíkA.NeznalM.NeznalM.SmetanováI.2014Preliminary results of indoor radon survey in V4 countries1601/321021310.1093/rpd/ncu08124723197Search in Google Scholar
Bátor, G., Csordás, A., Horváth, D., Somlai, J., & Kovács, T. (2015). A comparison of a track shape analysis-based automated slide scanner system with traditional methods. J.Radioanal. Nucl. Chem., 306(1), 333–339.BátorG.CsordásA.HorváthD.SomlaiJ.KovácsT.2015A comparison of a track shape analysis-based automated slide scanner system with traditional methods306133333910.1007/s10967-015-4013-9Search in Google Scholar