@article{oai:repo.qst.go.jp:00049030,
 author = {Tommasino, L. and Chen, J. and Falcolmer, R. and ミロソラフ, ヤニック and 神田, 玲子 and DeFelice, F. and Cardellini, F. and Trevisi, R. and Leonardi, F. and Magnoni, M. and Chiaberto, E. and Agnesod, G. and Faure, Ragani M. and Espinosa, G. and Golzarri, J. and Kozak, K. and Mazur, J. and ミロソラフ ヤニック and 神田 玲子},
 issue = {1-2},
 journal = {Radiation Protection Dosimetry},
 month = {May},
 note = {The recently developed radon film-badge makes it possible to measure radon indoors, in soil, in water and/or in aqueous media (e.g. mud). As a result of its wide response linearity, this monitor has been successfully used to measure radon in-water with concentrations from 10 to ~10 000 Bq/L. By exploiting the unique characteristics of this badge, a mini-survey has been carried out by Health Canada in which radon in water was measured from 12 private wells, as well as in tap water originating from the Ottawa River. Due to the widespread interest of different laboratories in using these passive monitors, laboratories were provided with plastic films to construct their own badges by using in-house CR-39 detectors. Monitors were then irradiated by a known radon concentration at the National Institute of Radiation Metrology (ENEA)’s radon chamber and sent back to each laboratory for processing and counting. Even though these laboratories have been using different etching- and counting-procedures, the film-badge responses varied only within ~12%.},
 pages = {12--15},
 title = {AN INTERNATIONAL COOPERATION BY USING AN ALL-ENCOMPASSING PASSIVE RADON MONITOR},
 volume = {177},
 year = {2018}
}