Tatsuhiko Sato
Cited by
Cited by
Particle and heavy ion transport code system, PHITS, version 2.52
T Sato, K Niita, N Matsuda, S Hashimoto, Y Iwamoto, S Noda, T Ogawa, ...
Journal of Nuclear Science and Technology 50 (9), 913-923, 2013
Features of Particle and Heavy Ion Transport code system (PHITS) version 3.02
T Sato, Y Iwamoto, S Hashimoto, T Ogawa, T Furuta, S Abe, T Kai, ...
Journal of Nuclear Science and Technology 55 (6), 684-690, 2018
Scaling in situ cosmogenic nuclide production rates using analytical approximations to atmospheric cosmic-ray fluxes
N Lifton, T Sato, TJ Dunai
Earth and Planetary Science Letters 386, 149-160, 2014
PHITS—a particle and heavy ion transport code system
K Niita, T Sato, H Iwase, H Nose, H Nakashima, L Sihver
Radiation measurements 41 (9-10), 1080-1090, 2006
Development of PARMA: PHITS-based analytical radiation model in the atmosphere
T Sato, H Yasuda, K Niita, A Endo, L Sihver
Radiation research 170 (2), 244-259, 2008
Analytical functions to predict cosmic-ray neutron spectra in the atmosphere
T Sato, K Niita
Radiation research 166 (3), 544-555, 2006
PHITS: Particle and heavy ion transport code system, version 2.23
K Niita, N Matsuda, Y Iwamoto, T Sato, H Nakashima, Y Sakamoto, ...
Analytical model for estimating terrestrial cosmic ray fluxes nearly anytime and anywhere in the world: Extension of PARMA/EXPACS
T Sato
PloS one 10 (12), e0144679, 2015
Biological dose estimation for charged-particle therapy using an improved PHITS code coupled with a microdosimetric kinetic model
T Sato, Y Kase, R Watanabe, K Niita, L Sihver
Radiation research 171 (1), 107-117, 2009
Benchmark study of the recent version of the PHITS code
Y Iwamoto, T Sato, S Hashimoto, T Ogawa, T Furuta, S Abe, T Kai, ...
Journal of Nuclear Science and Technology 54 (5), 617-635, 2017
Analytical model for estimating the zenith angle dependence of terrestrial cosmic ray fluxes
T Sato
PloS one 11 (8), e0160390, 2016
Fluence-to-dose conversion coefficients for neutrons and protons calculated using the PHITS code and ICRP/ICRU adult reference computational phantoms
T Sato, A Endo, M Zankl, N Petoussi-Henss, K Niita
Physics in Medicine & Biology 54 (7), 1997, 2009
Extension of TOPAS for the simulation of proton radiation effects considering molecular and cellular endpoints
L Polster, J Schuemann, I Rinaldi, L Burigo, AL McNamara, RD Stewart, ...
Physics in Medicine & Biology 60 (13), 5053, 2015
The Martian surface radiation environment–a comparison of models and MSL/RAD measurements
D Matthiä, B Ehresmann, H Lohf, J Köhler, C Zeitlin, J Appel, T Sato, ...
Journal of Space Weather and Space Climate 6, A13, 2016
Cell survival fraction estimation based on the probability densities of domain and cell nucleus specific energies using improved microdosimetric kinetic models
T Sato, Y Furusawa
Radiation research 178 (4), 341-356, 2012
Development of a calculation method for estimating specific energy distribution in complex radiation fields
T Sato, R Watanabe, K Niita
Radiation protection dosimetry 122 (1-4), 41-45, 2006
SCINFUL-QMD: Monte Carlo based computer code to calculate response function and detection efficiency of a liquid organic scintillator for neutron energies up to 3 GeV
D Satoh, T Sato, N Shigyo, K Ishibashi
JAEA-Data/Code 23, 2006, 2006
ICRP Publication 123: Assessment of radiation exposure of astronauts in space
G Dietze, DT Bartlett, DA Cool, FA Cucinotta, X Jia, IR McAulay, ...
Annals of the ICRP 42 (4), 1-339, 2013
A new standard DNA damage (SDD) data format
J Schuemann, AL McNamara, JW Warmenhoven, NT Henthorn, KJ Kirkby, ...
Radiation research 191 (1), 76-92, 2019
Energy-dependent fragmentation cross sections of relativistic C 12
T Ogawa, T Sato, S Hashimoto, D Satoh, S Tsuda, K Niita
Physical Review C 92 (2), 024614, 2015
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