References
- IAEA EMRAS Tritium & C14 Working Group, "Pine Tree Scenario", (2005). http://www-ns.iaea.org/projects/emras-tritium-wg.htm.
- K. YAMAMOTO, T. SAKASHITA and K MIYAMOTO, "Development and Validation of an Atmospheric Dispersion Model for Tritium Using the IAEA BIOMASS Scenario," Fusion Sci. Technol., 48, 500 (2005).
- F. PASQUILL, "The Estimation of the Dispersion of Windborne Material," Meteorol. Mag., 90, 33 (1961).
- K MIYAMOTO, K KIMURA and S. HONGO, "A Transfer Model of Tritium in a Local Hydrosphere," Fusion Tech, 28, 910 (1995).
- K. MIYAMOTO, Y. INOUE, T. IWAKURA, H. TAKEDA, S. FUMA, K. YANAGISAWA and N. ISHII, "An Application of a Transfer Model to the Drainage System of Tritium in a River Basin in the Vicinity of a Nuclear Site," Fusion Sci. Technol., 41, 483 (2002).
- Y. INOUE, K MIYAMOTO, S. FUMA and H. TAKEDA, "Unique Features of a Pine Tree for Monitoring and Modeling of Environmental Tritium," Fusion Sci. Technol., 48, 508 (2005).