Institution
Japan Atomic Energy Research Institute
Government•
About: Japan Atomic Energy Research Institute is a based out in . It is known for research contribution in the topics: Neutron & Irradiation. The organization has 7707 authors who have published 14471 publications receiving 207688 citations.
Topics: Neutron, Irradiation, Ion, Tokamak, Polymerization
Papers published on a yearly basis
Papers
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TL;DR: In this paper, the authors have performed heat transfer experiments on smooth circular and swirl tubes in the regions from non-boiling to high sub-cooled partial nucleate boiling.
75 citations
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TL;DR: In this paper, the authors evaluated the performance of a membrane reactor with a homemade silica membrane and found that the conversion ratio of over 0.9 would be achieved using the membrane with the homemade membrane.
75 citations
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TL;DR: In this paper, the authors investigated the metamagnetic anomaly observed in several heavy-fermion compounds, and found that MA is closely related to a sharp peak in the density of states of the hybridized quasiparticle bands.
75 citations
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TL;DR: In this article, the effect of strong magnetic fields on the structure of a neutron star was studied and it was shown that if the interior field is on the same order as the surface field currently observed, then the influences of the field on the star's mass and radius are negligible; if the field is as large as that estimated from the scalar virial theorem, then considerable effects will be induced.
Abstract: We study the effect of strong magnetic fields on the structure of neutronstar. We find that if the interior field is on the same order as the surface fieldcurrently observed, then the influences of the field on the star's mass and radius arenegligible; if the field is as large as that estimated from the scalar virial theorem,then considerable effects will be induced. The maximum mass of the star will beincreased substantially while the central density is greatly reduced. The radius ofa magnetic star can be larger by about 10% ~ 20% than a nonmagnetic star of thesame mass.
75 citations
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TL;DR: The observed narrow suppression window suggests that the basic mechanism responsible for the suppression is direct island heating, which is much faster than the time scale of the change of the overall current profile.
Abstract: The typical MHD disruption at safety factor {ital q}{sub {ital a}}=3 has been suppressed by off-central electron cyclotron heating with power of 70--80 kW in the JFT-2M tokamak. For the suppression, the electron cyclotron resonance layer has to be placed radially in a very narrow region of width about 1 cm near the {ital q}=2 surface. The observed narrow suppression window suggests that the basic mechanism responsible for the suppression is direct island heating. The actual time scale of the suppression is much faster than the time scale of the change of the overall current profile.
75 citations
Authors
Showing all 7708 results
Name | H-index | Papers | Citations |
---|---|---|---|
William F. DeGrado | 110 | 599 | 43508 |
David J. Hill | 107 | 1364 | 57746 |
Makoto Fujita | 98 | 451 | 36732 |
Yuliang Zhao | 93 | 538 | 30249 |
Yi Luo | 81 | 668 | 30958 |
Timothy J. White | 72 | 466 | 20574 |
Takeji Hashimoto | 71 | 431 | 17381 |
Toshiki Tajima | 68 | 627 | 22528 |
Hajime Akimoto | 67 | 385 | 16568 |
Andreas Schadschneider | 66 | 358 | 20856 |
Tomoyuki Takahashi | 64 | 187 | 17199 |
Hiroshi Nishihara | 62 | 616 | 14683 |
Hirofumi Uchimiya | 62 | 233 | 11496 |
A. Loarte | 61 | 395 | 14856 |
Masahide Asano | 60 | 159 | 12332 |