Shigeyasu Sakamoto scite author profile

Shigeyasu Sakamoto

5Publications

22Citation Statements Received

0Citation Statements Given

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Affiliations

Tokai University, Shibuya (Japan), Massachusetts Institute of Technology

Publications

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Neutron Generator at Hiroshima University for Use in Radiobiology Study.

Endo

Hoshi

Tauchi

et al. 1995

JRR

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A neutron generator (HIRRAC) for use in radiobiology study has been constructed at the Research Institute for Radiation Biology and Medicine, Hiroshima University (RIRBM). Monoenergetic neutrons of which energy is less than 1.3 MeV are generated by the 7Li(p,n)7 Be reaction at proton energies up to 3 MeV. The protons are accelerated by a Schenkel-type-accelerator and are bombared onto the 7Li-target. An apparatus for the irradiation of biological material such as mice, cultured cells and so on, was designed and will be manufactured. Neutron and gamma-ray dose rates were measured by paired (TE-TE and C-CO2) ionization chambers. Contamination of the gamma ray was less than about 6% when using 10-microns-thick 7Li as a target. Maximum dose rates for the tissue equivalent materials was 40 cGy/min at a distance of 10 cm from the target. Energy distributions of the obtained neutrons have been measured by a 3He-gas proportional counter. The monoenergetic neutrons within an energy region from 0.1 to 1.3 MeV produced by thin 7Li or 7LiF targets had a small energy spread of about 50 keV (1 sigma width of gaussian). The energy spread of neutrons was about 10% or less at an incident proton energy of 2.3 MeV. We found that HIRRAC produces small energy spread neutrons and at sufficient dose rates for use in radiobiology studies.

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Beyond World-Class Productivity

Sakamoto¹

2010

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A Li-glass scintillation detector for thermal-neutron TOF measurements

Sakamoto

1990

Nuclear Instruments and Methods in Physics Research Section A:

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Prevention of Reversed Flow in Gas Divertor with High Vacuum Chamber.

Matsubara

Murata

Nagata

et al. 2000

J. Nucl. Sci. Technol.

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Measurements of Time Dependent Energy Spectra of Neutrons in a Small Graphite Assembly

Fujita

Sakamoto

Aizawa

et al. 1975

J. Nucl. Sci. Technol.

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The time-dependent energy spectra of neutrons have been measured in a small 30 x 3 0 x 30 cm3 graphite assembly by means of the linac-chopper method, with a view to establishing experimental evidence that there is no asymptotic spectrum in such a small assembly, and in order to study the non-asymptotic behavior of neutrons.The arrangement of a polyethylene pre-moderator adjacent to the assembly made the measurements possible with the improvement obtained thereby of the neutron counting statistics. It was indicated from calculation that the presence of the premoderator had little effect-at least above the Bragg cut-off energy-on the evolution in time of the energy spectra of neutrons in the graphite assembly.T h e experimental results indicated very probable disappearance of asymptotic spectra, and revealed significant enhancement of trapping at Bragg energies with the lapse of time. This is consistent with the results of pulsed neutron experiments in small assemblies conducted by Takahashi et al., and falls in line with de Saussure's approximation.The spectra in the graphite assembly showed significant space dependence, the spectra becoming harder with increasing distance from the pre-moderator. This hardening may be attributed to the relatively faster propagation of higher energy neutrons.

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