Detection of Events

  • Achim, Monfort, Le Petit, Gross, Douysset, Taffary, et al. (2014). Analysis of Radionuclide Releases from the Fukushima Dai-ichi Nuclear Power Plant Accident Part II. Pure and Applied Geophysics, 171(3-5), 645-667.
  • Becker, Wotawa, Ringbom, & Saey (2010). Backtracking of Noble Gas Measurements Taken in the Aftermath of the Announced October 2006 Event in North Korea by Means of PTS Methods in Nuclear Source Estimation and Reconstruction. Pure and Applied Geophysics, 167(4-5), 581-599.
  • Biegalski, Bowyer, Eslinger, Friese, Greenwood, Haas, et al. (2012). Analysis of data from sensitive US monitoring stations for the Fukushima Dai-ichi nuclear reactor accident. Journal of Environmental Radioactivity, 114, 15-21.
  • Bowyer, Biegalski, Cooper, Eslinger, Haas, Hayes, et al. (2011). Elevated radioxenon detected remotely following the Fukushima nuclear accident. Journal of Environmental Radioactivity, 102(7), 681-687.
  • De Meutter, Camps, Delcloo, & Termonia (2017). Assessment of the announced North Korean nuclear test using long-range atmospheric transport and dispersion modelling. Scientific Reports, 7
  • Eslinger, Biegalski, Bowyer, Cooper, Haas, Hayes, et al. (2014). Source term estimation of radioxenon released from the Fukushima Dai-ichi nuclear reactors using measured air concentrations and atmospheric transport modeling. Journal of Environmental Radioactivity, 127, 127-132.
  • Kurzeja, Buckley, Werth, & Chiswell (2018). Detection of nuclear testing from surface concentration measurements: Analysis of radioxenon from the February 2013 underground test in North Korea. Atmospheric Environment, 176, 274-291.
  • Kalinowski, & Tuma (2009). Global radioxenon emission inventory based on nuclear power reactor reports. Journal of Environmental Radioactivity, 100(1), 58-70.
  • Masson, Baeza, Bieringer, Brudecki, Bucci, Cappai, et al. (2011). Tracking of Airborne Radionuclides from the Damaged Fukushima Dai-Ichi Nuclear Reactors by European Networks. Environmental Science & Technology, 45(18), 7670-7677.
  • Orr, Schoppner, Tinker, & Plastino (2013). Detection of radioxenon in Darwin, Australia following the Fukushima Dai-ichi nuclear power plant accident. Journal of Environmental Radioactivity, 126, 40-44.
  • Pakhomov, & Dubasov (2010). Estimation of Explosion Energy Yield at Chernobyl NPP Accident. Pure and Applied Geophysics, 167(4-5), 575-580.
  • Ringbom, Elmgren, Lindh, Peterson, Bowyer, Hayes, et al. (2009). Measurements of radioxenon in ground level air in South Korea following the claimed nuclear test in North Korea on October 9, 2006. Journal of Radioanalytical and Nuclear Chemistry, 282(3), 773-779.
  • Saey, Bean, Becker, Coyne, d'Amours, De Geer, et al. (2007). A long distance measurement of radioxenon in Yellowknife, Canada, in late October 2006. Geophysical Research Letters, 34(20).
  • Sinclair, Seywerd, Fortin, Carson, Saull, Coyle, et al. (2011). Aerial measurement of radioxenon concentration off the west coast of Vancouver Island following the Fukushima reactor accident. Journal of Environmental Radioactivity, 102(11), 1018-1023.
  • Woods, Bowyer, Biegalski, Greenwood, Haas, Hayes, et al. (2013). Parallel radioisotope collection and analysis in response to the Fukushima release. Journal of Radioanalytical and Nuclear Chemistry, 296(2), 883-888.
  • Wang, Li, Meng, Chen, Zhao, Li, et al. (2013). Radioxenon monitoring in Beijing following the Fukushima Daiichi NPP accident. Applied Radiation and Isotopes, 81, 344-347.
  • Zhou, Zhou, Feng, Jin, Zhao, Cheng, et al. (2013). Atmospheric radioxenon isotope monitoring in Beijing after the Fukushima nuclear power plant accident. Applied Radiation and Isotopes, 72, 123-127.
Last Updated: September 2021