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Kunimaru, Takanori; Morikawa, Keita; Tachi, Yukio; Kuno, Yoshio*; Hosoya, Shinichi*; Shimoda, Satoko*; Kato, Hiroyasu*; Nakazawa, Toshiyuki*; Ikuse, Hiroyuki*; Kubota, Masako*
JAEA-Data/Code 2012-013, 96 Pages, 2012/07
JAEA-Data-Code-2012-013.pdf:7.41MBJAEA-Data-Code-2012-013(errata).pdf:0.13MB
For the purpose to understand the relationship between characteristic of mass transport and characteristic of fracture, the following experiments were carried out using core sample, which was sampled from the -300 m Stage. This paper compiled the results of these experiment. (1) Diffusion experiments of Cs, Sr, I and uranin in granite samples (2) Sorption experiments of Cs and Sr on crushed granite (3) Measurement of pore physicality by Mercury Intrusion and water saturation
Watanabe, Ritsuko; Sato, Osamu*; Kubota, Asako*; Funabiki, Jun*; Saito, Kimiaki
no journal, ,
The purpose of this study is to estimate the yields and the configuration of DNA damages as well as the spatial distribution of the damages along to the tracks of heavy ions using the Monte Carlo simulation. A new Monte Carlo track structure code for any kind of ions from hydrogen to uranium has been developed and applied for simulation of the induction process of DNA damage. Induction of strand breaks and base damages were simulated with direct and the radical generation and diffusion using Monte Carlo methods for atomistic model of DNA. In our presentation, the framework of the developed track code for ions, OH radical yields, and the calculated DNA damage spectrum for selected types of ions for different energies will be shown and discussed by comparison with available experimental data.
Watanabe, Ritsuko; Sato, Osamu*; Kubota, Asako*; Funabiki, Jun*; Saito, Kimiaki
no journal, ,
The purpose of this study is to estimate the yields and the configuration of DNA damages as well as the spatial distribution of the damages along to the tracks of heavy ions using the Monte Carlo simulation. A new Monte Carlo track structure code for any kind of ions from hydrogen to uranium has been developed and applied for simulation of the induction process of DNA damage. In our presentation, the calculated DNA damage spectrum for some selected types of ions for different energies is shown and discussed by comparison with available experimental data.
Watanabe, Ritsuko; Sato, Osamu*; Kubota, Asako*; Funabiki, Jun*; Saito, Kimiaki
no journal, ,
The purpose of our study is to estimate the yields and the configuration of radiation-induced DNA damages and further to relate the estimated clustered DNA damage with biological consequences. We have developed the Monte Carlo simulation code system to estimate radiation-induced DNA damage spectrum which starts from detailed track structure by considering the direct and indirect actions in cellular environment for X-rays and heavy ions. In our presentation, the calculated DNA damage spectrum for heavy ions as C ions will be shown. Analysis on the contribution of energy deposition pattern, higher-order structure of DNA, direct and indirect action to the DNA damage spectrum will be also shown. The damage spectrum as a function of LET will be discussed with comparison with experimental data on LET-RBE relationship of cell death.