2014
DOI: 10.1080/00223131.2014.919885
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Ambient dose equivalent conversion coefficients for radionuclides exponentially distributed in the ground

Abstract: Conversion coefficients of radionuclide deposition density to the ambient dose equivalent rate at 1 m height above ground were calculated for exponentially distributed sources in the ground. First, Monte Carlo transport simulations assuming exponential distributions in the ground were performed to obtain ambient dose equivalent for mono-energetic gamma-ray sources having different relaxation depths; next, on the basis of the simulated data, conversion coefficients for radionuclides were composed considering re… Show more

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Cited by 64 publications
(32 citation statements)
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“…The soil sampling campaigns by Matsuda et al [19] commenced in December 2011, so cannot provide measurements to derive a mean βḢ * (10) eff value applicable to this period. The circles in Fig.…”
Section: B Evolution Of Air Dose Ratesmentioning
confidence: 99%
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“…The soil sampling campaigns by Matsuda et al [19] commenced in December 2011, so cannot provide measurements to derive a mean βḢ * (10) eff value applicable to this period. The circles in Fig.…”
Section: B Evolution Of Air Dose Ratesmentioning
confidence: 99%
“…6). Conversion coefficients published for various values of β can be used to evaluate the 1 m ambient dose equivalent rate given the radionuclide inventory per unit area of soil [10]. In contrast, two parameters characterize the penetration of the radionuclides within soil for the hyperbolic secant distribution -a relaxation mass depth β and a mass depth ζ 0 for the peak in activity concentration below the surface (Eq.…”
Section: Evolution Of Air Dose Ratesmentioning
confidence: 99%
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