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Article type: Cover
1995 Volume 91 Issue 4 Pages
Cover1-
Published: July 20, 1995
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Article type: Appendix
1995 Volume 91 Issue 4 Pages
App1-
Published: July 20, 1995
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Article type: Appendix
1995 Volume 91 Issue 4 Pages
D1-D2
Published: July 20, 1995
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[in Japanese], [in Japanese], [in Japanese], [in Japanese], [in Japane ...
Article type: Article
1995 Volume 91 Issue 4 Pages
D3-D10
Published: July 20, 1995
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[in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D11-D16
Published: July 20, 1995
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[in Japanese], [in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D17-D21
Published: July 20, 1995
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Superfluid state of nucleons under the occurence of kaon condensation in neutron star core is investigated. Due to the large proton mixing characteristic of the condensate, both of neutrons and protons can utilize the 3^P_2-interaction as a pairing interaction responsible for the superfluidity. It is shown that the existence of nucleon superfluids is unlikely if the effective nucleon-mass parameter m^*(=m^*_N/m_N) is less than 〜0.7.
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[in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D22-D24
Published: July 20, 1995
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[in Japanese], [in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D25-D30
Published: July 20, 1995
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The temperature-dependence of the symmetry energy which plays a key role in the kaon condensation is analyzed. The symmetry energy at finite temperature becomes larger due to the entropy contribution to the free energy. This suggests the kaon condensation occurs more easily at finite temperature than at zero temperature, as far as the energy of nucleon matter is concerned. Specific heat, which is related to the thermal evolution of neutron stars, is also analyzed.
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Masaki Arima
Article type: Article
1995 Volume 91 Issue 4 Pages
D31-D37
Published: July 20, 1995
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Masaki Mizoguchi, Satoru Hirenzaki, Hiroshi Toki
Article type: Article
1995 Volume 91 Issue 4 Pages
D38-D44
Published: July 20, 1995
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We discuss how kaon-nucleus interaction is described by using the kaon-nucleon scattering data. Here, we report kaonic atom optical potential. We obtain microscopic kaonic atom optical potential in finite nuclei taking into account the K-NΛ(1405) and K-NΣ(1385) interactions. The experimental kaonic atom data (Z>2) are reproduced well. The details of this report are found in Ref.
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Hiroyuki Yabu
Article type: Article
1995 Volume 91 Issue 4 Pages
D45-D47
Published: July 20, 1995
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[in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D48-D51
Published: July 20, 1995
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[in Japanese], [in Japanese], [in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D52-D58
Published: July 20, 1995
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[in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D59-D65
Published: July 20, 1995
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We introduce momentum-dependent scalar and vector fields into the Lorentz covariant relativistic BUU- (RBUU-) approach. The momentum-dependent parametrization is valid up to about 1 GeV/u for the empirical proton-nucleus optical potential. We perform numerical simulations for heavy-ion collisions within the RBUU-approach adopting momentum-dependent and momentum-independent mean-fields and calculate the transverse flow as well as subthreshold K^+- production. By means of these observables we discuss the particular role of the momentum-dependent forces and their implications on the nuclear equation of state. We find that only a momentum dependent parameter-set can explain the experimental data on the transverse flow in the reaction plane from 150 - 1000 MeV/u and the differential K^+- production cross sections at 1 GeV/u at the same time.
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[in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D66-D71
Published: July 20, 1995
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[in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
D72-D75
Published: July 20, 1995
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[in Japanese], [in Japanese], [in Japanese]
Article type: Article
1995 Volume 91 Issue 4 Pages
131-180
Published: July 20, 1995
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Article type: Appendix
1995 Volume 91 Issue 4 Pages
App2-
Published: July 20, 1995
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Article type: Appendix
1995 Volume 91 Issue 4 Pages
App3-
Published: July 20, 1995
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Article type: Cover
1995 Volume 91 Issue 4 Pages
Cover2-
Published: July 20, 1995
Released on J-STAGE: October 02, 2017
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Article type: Cover
1995 Volume 91 Issue 4 Pages
Cover3-
Published: July 20, 1995
Released on J-STAGE: October 02, 2017
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