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"Settled Completely and Finally": A Japanese Perspective on the Repatriationism of Cultural Property
Yoshiaki Sato (사) 이준국제법연구원 2017 Journal of East Asia and International Law Vol.10 No.1
This article focuses on the Korean claim for repatriation of cultural property currently located in Japan. Through an analysis of the relevant rules of international law, it demonstrates the established norm that the predecessor state is not obliged to repatriate the cultural property acquired in and exported from the annexed territory. It further shows that, even if Japan had not annexed the Empire of Korea and just occupied it, the repatriationists' claim would not hold water, as the question has been conclusively settled by a bilateral agreement between Japan and the Republic of Korea. Considering that the parties to a settlement should refrain from subsequently relitigating the matter, the author concludes that cultural property, which can be a powerful ambassador for promoting mutual understanding, should be dealt with in the framework of forward-looking cooperation, including mutual loans and possibly the creation of a multinational museum.
Immigration Law and Policy of Japan in the Age of East Asian Community-Building
Yoshiaki Sato (사) 이준국제법연구원 2010 Journal of East Asia and International Law Vol.3 No.2
Japanese immigration law has been amended several times since 2000. These revisions aimed at coping with globalization and regionalization in East Asia. Since mobility is a critical issue for establishing a transnational labor market and ultimately a regional community, this article examines the interaction between Japanese immigration law, especially that of the Industrial Training and Technical Internship Program, and the struggle to build an East Asian Community. This article proposes enhancing the mutual recognition of certifications of skill as a means to promote the movement of people in the region.
Factors Affecting Stretching Limits of Aluminum Sheet
Sato, Kinji,Sawa, Yoshiaki,Abe, Yuhji,Yokoyama, Toshio,Kagawa, Hotsumi 대한금속재료학회(대한금속학회) 1998 METALS AND MATERIALS International Vol.4 No.6
The purpose of the present paper is to study methods to improve the stretching limit of metal sheet. The factors affecting the stretching limit were sheet thickness, blank diameter, blank holding pressure, and forming rate. Punch radius, die radius, and clearance between a punch and a die were retained constant. Tested materials were softened and half hardened types of aluminum sheet. The effect of lubrication was also studied. Lubricants used were a press working ail and graphite. Stretching by two types of punch shape, a spherical head punch and a truncated cone one, was tried in order to research the effect of punch shape. The half hardened aluminium, which has a larger n-value, showed the larger stretching limit. The larger thickness gave rise to the larger stretching limit. Flow characteristic of materials was poorer in larger diameter of a blank, so its stretching limit was lower. A bit lower holding pressure, which allows drawing of materials to some extent, yielded larger stretching limit than rigid holding. The forming rate did not so much affect stretching limit. Concerning the effect of lubrication, applied position of lubricants was important.
In-plane Anisotropy of the Magnetic and the Electric Properties of the Fe Pnictide Ba(Fe1−xCox)2As2
Yoshiaki Kobayashi,Akihiro Ichikawa,Masayuki Toyoda,Masayuki Itoh,Masatoshi Sato 한국물리학회 2013 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.63 No.3
The anisotropy of the electronic and the magnetic properties within the FeAs planes of Co(2%)-doped BaFe2As2 has been investigated by using 75As nuclear magnetic resonance (NMR) measurementson the As (As0) sites with all four nearest neighbor sites occupied by Fe. Even in thetetragonal phase at temperatures above 100 K, two sets of NMR spectra with twofold symmetry ofin-plane Knight shifts and electronic nuclear quadrupole frequencies are observed. They originatefrom two domains with their symmetry axes lying at right angles to each other. The anisotropies ofthe electronic and the magnetic properties become pronounced at 140 K, below which an in-planeanisotropy is reported to appear in electrical resistivity under a pressure along one of Fe-Fe directions. 75As NMR measurements have also been carried out for the As (As1) sites surrounded byone Co and three Fe. From the data, we conclude that the spin susceptibility of As1 is ~1/3 thatof As0 and that the antiferromagnetic spin fluctuation of As1 is fairly suppressed as compared withthat of As0. We discuss these behaviors of the FeAs layer in connection with the impurity-inducedlocal orbital order model proposed by theoretical studies.
Phase Separation of Antiferromagnetism and Superconductivity in RbxFe2−ySe2 Observed by Using Rb NMR
Yoshiaki Kobayashi,Shunsuke Saiki,Shouhei Kototani,Masayuki Itoh,Masatoshi Sato 한국물리학회 2013 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.63 No.3
We have carried out 87Rb NMR measurements on single crystals with and without the superconducting(SC) transition to clarify whether the SC and the antiferromagnetic (AFM) states aremicroscopically coexistent or just phase-separated in the Rb-intercalated iron-selenide RbxFe2−ySe2. The 87Rb NMR spectra observed at temperature below 300 K for these crystals are clearly separableinto two parts with different structures and widths. The broader spectrum can be explainedby the presence of a region with an AFM spin structure proposed by neutron scattering studies. The narrower spectrum in the crystal with the SC transition can be understood from the temperaturedependences of the spectral frequency-position and shape to stem from the SC region withTc = 30.8 K. Thus, we can clearly conclude that the superconductivity and the antiferromagnetismin the present system are phase-separated. Also, the crystal without the SC transition has twophase-separated regions with respective magnetic transitions at 500 and 50 K.
Masatoshi Sato,Yoshiaki Kobayashi,Takayuki Kawamata,Yukio Yasui,Kazunori Suzuki,M. Itoh,Ryoichi Kajimoto,Kazuhiko Ikeuchi,M. Arai,Phillipe Bourges 한국물리학회 2013 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.62 No.12
To identify the superconducting symmetry of Fe-based superconductors, we studied effects ofnonmagnetic-impurities on Tc, magnetic excitation spectra 00 and NMR 1/T1 − T curve, whichare sensitive to the relative signs between the order parameters on the disconnected Fermi surfacesin reciprocal space, because the symmetry is closely connected with the pairing mechanism:If the signs are opposite (symmetry S±), the mechanism is considered to be a magneticone, but when the signs are the same (symmetry S++), a novel mechanism is plausible becausethe ordinary phonon mechanism cannot realize the Tc value as high as 55 K found in Ln1111(Ln=lanthanide). Results are as follows: (a) The very small rates of Tc-suppression by impurityatoms M of LnFe1−yMyAs0.89−xF0.11+x (M=Ni, Co, Ru) can be explained only by S++. (b) The00-data for Ba(Fe, Co)2As2 (Tc 23 K) and Ca-Fe-Pt-As crystals seem to be well explained byS++ rather than by S±. (c) The nuclear magnetic resonance data can be consistently understoodby S++, too. These results suggest the S++ symmetry and a novel pairing mechanism, which canbe considered to be related to the elastic softening of C66 induced by the orbital fluctuation of thesystem.
Toshiro Ohashi,Yoshiaki Sugaya,Naoya Sakamoto,Masaaki Sato 대한의용생체공학회 2016 Biomedical Engineering Letters (BMEL) Vol.6 No.1
Purpose Vascular endothelial cells (ECs) are continuouslysubjected to mechanical forces such as fluid shear stress,stretching and hydrostatic pressure. The effect of hydrostaticpressure on EC responses has not been fully understoodcompared to that of the other two stimuli. The purpose ofthis study is to assess mechanical responses of ECs to thesemechanical stimuli. Methods Bovine aortic ECs were exposed to hydrostaticpressure of 50, 100, and 150 mmHg and fluid shear stressof 3 Pa in simultaneous or successive fashion. Immunofluorescencestaining of actin filaments and VEcadherin wasthen performed to observe cell morphology and cell-celljunctions, respectively. Results The results showed that ECs subjected to 50, 100,and 150 mmHg for 24 h elongated without predominantorientation and exhibited multilayered structure, whereassimultaneous application of 50 and 100 mmHg and 3 Pa for24 h induced marked elongation and orientation of ECsparallel to the direction of flow maintaining monolayerintegrity. This monolayer integrity was lost in ECs subjectedto 150 mmHg together with 3 Pa. A successive applicationof 100 mmHg for 24 h followed by 100 mmHg and 3 Pa for24 h, indicated that the loss of monolayer integrity due tohydrostatic pressure could not be retrieved by the followingsimultaneous application. Conclusions It can be concluded that physiological shearstress of 3 Pa is dominant to physiological hydrostatic pressureup to 100 mmHg, importantly suggesting the relativecontribution of physiological hydrostatic pressure and fluidshear stress to endothelial monolayer integrity.
Magnetism and Superconductivity in RbxFe2−ySe2
Kazuki Ohishi,Masatoshi Sato,Shouhei Kototani,Shunsuke Saiki,Yoshiaki Kobayashi,Masayuki Itoh 한국물리학회 2013 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.62 No.12
We have performed zero-field muon spin relaxation measurements in single-crystalline samplesof superconducting (SC) RbxFe2−ySe2 (Tc = 29 K) and non-SC RbxFe2−ySe2 in order to elucidatewhether there is difference in the magnetic states between SC and non-SC systems. In the SCsample, no temperature dependence of the muon spin polarization was observed at temperaturesbelow 40 K while a decrease in the spin polarization was observed in the non-SC sample withdecreasing temperature. This suggests that a new magnetically ordered state seems to develop inthe non-SC sample.