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Your search keyword '"Sakon, T."' showing total 11 results
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11 results on '"Sakon, T."'

4. Forced magnetostriction of ferromagnetic Heusler alloy Ni2MnGa at the Curie temperature.

Author

Sakon, T., Hayashi, Y., Fujimoto, N., Kanomata, T., Nojiri, H., and Adachi, Y.

Subjects
*MAGNETOSTRICTION, *FERROMAGNETIC materials, *HEUSLER alloys, *CURIE temperature, *MAGNETIZATION, *NICKEL-manganese alloys, *GALLIUM alloys
Abstract

An investigation on the relationship between magnetostriction and magnetization by means of the self-consistent renormalization (SCR) theory of an itinerant ferromagnet was performed for Ni2MnGa alloy. The magnetization results at the Curie temperature TC suggest that the critical index δ of H is 4.7–5.0, and this confirms Takahashi's spin fluctuation theory and the result of Nishihara et al. As a result, at TC, the relation between magnetostriction and M2 deviates from proportionality and the magnetostriction is proportional to M4. At TC, the plot of ΔL/L vs M4 crossed the point of origin. This result is in accordance with Takahashi's spin fluctuation theory. [ABSTRACT FROM AUTHOR]

Published
2018
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6. The Forced Magnetostrictions and Magnetic Properties of Ni 2 MnX (X = In, Sn) Ferromagnetic Heusler Alloys.

Author

Sakon T, Yamazaki J, Komori T, Kanomata T, Narumi Y, Hagiwara M, Nojiri H, and Adachi Y

Abstract

Experimental studies into the forced magnetostriction, magnetization, and temperature dependence of permeability in Ni 2 MnIn and Ni 2 MnSn ferromagnetic Heusler alloys were performed according to the spin fluctuation theory of itinerant ferromagnetism proposed by Takahashi. We investigated the magnetic field ( H ) dependence of magnetization ( M ) at the Curie temperature T C , and at T = 4.2 K, which concerns the ground state of the ferromagnetic state. The M - H result at T C was analyzed by means of the H versus M 5 dependence. At 4.2 K, it was investigated by means of an Arrott plot ( H / M vs. M 2 ) according to Takahashi's theory. As for Ni 2 MnIn and Ni 2 MnSn, the spin fluctuation parameters in k -space (momentum space, T A ) and that in energy space (frequency space, T 0 ) obtained at T C and 4.2 K were almost the same. The average values obtained at T C and 4.2 K were T A = 342 K, T 0 = 276 K for Ni 2 MnIn and T A = 447 K, T 0 = 279 K for Ni 2 MnSn, respectively. The forced magnetostriction at T C was also investigated. The forced linear magnetostriction (Δ L / L ) and the forced volume magnetostriction (Δ V / V ) were proportional to M 4 , which followed Takahashi's theory. We compared the forced volume magnetostriction Δ V / V and mechanical parameter, bulk modulus K . Δ V / V is inversely proportional to K . We also discuss the spin polarization of Ni 2 MnIn and other magnetic Heusler alloys. The p C / p S of Ni 2 MnIn was 0.860. This is comparable with that of Co 2 MnGa, which is a famous half-metallic alloy.

Published
2020
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7. The Characteristic Properties of Magnetostriction and Magneto-Volume Effects of Ni 2 MnGa-Type Ferromagnetic Heusler Alloys.

Author

Sakon T, Yamasaki Y, Kodama H, Kanomata T, Nojiri H, and Adachi Y

Abstract

In this article, we review the magnetostriction and magneto-volume effects of Ni 2 MnGa-type ferromagnetic Heusler alloys at the martensitic, premartensitic, and austenitic phases. The correlations of forced magnetostriction (ΔV/V) and magnetization ( M ), using the self-consistent renormalization (SCR) spin fluctuation theory of an itinerant electron ferromagnet proposed by Takahashi, are evaluated for the ferromagnetic Heusler alloys. The magneto-volume effect occurs due to the interaction between the magnetism and volume change of the magnetic crystals. The magnetic field-induced strain (referred to as forced magnetostriction) and the magnetization are measured, and the correlation of magnetostriction and magnetization is evaluated. The forced volume magnetostriction ΔV/V at the Curie temperature, T C is proportional to M 4 , and the plots cross the origin point; that is, ( M 4 , ΔV/V) = (0, 0). This consequence is in good agreement with the spin fluctuation theory of Takahashi. An experimental study is carried out and the results of the measurement agree with the theory. The value of forced magnetostriction is proportional to the valence electron concentration per atom ( e / a ). Therefore, the forced magnetostriction reflects the electronic states of the ferromagnetic alloys. The magnetostriction near the premartensitic transition temperature ( T P ) induces lattice softening; however, lattice softening is negligible at T C . The forced magnetostriction at T C occurs due to spin fluctuations of the itinerant electrons. In the martensitic and premartensitic phases, softening of the lattice occurs due to the shallow hollow (potential barrier) of the total energy difference between the L2 1 cubic and modulated 10M or 14M structures. As a result, magnetostriction is increased by the magnetic field., Competing Interests: The authors declare no conflict of interest.

Published
2019
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8. Magnetoresistance and Thermal Transformation Arrest in Pd 2 Mn 1.4 Sn 0.6 Heusler Alloys.

Author

Xu X, Okada H, Chieda Y, Aizawa N, Takase D, Nishihara H, Sakon T, Han K, Ito T, Adachi Y, Kihara T, Kainuma R, and Kanomata T

Abstract

The magnetization, electric resistivity, and magnetoresistance properties of Pd 2 Mn 1 . 4 Sn 0 . 6 Heusler alloys were investigated. The Curie temperature of the parent phase, martensitic transformation temperatures, and magnetic field dependence of the martensitic transformation temperatures were determined. The magnetoresistance was investigated from 10 to 290 K, revealing both intrinsic and extrinsic magnetoresistance properties for this alloy. A maximum of about - 3 . 5 % of intrinsic magnetoresistance under 90 kOe and of about - 30 % of extrinsic magnetoresistance under 180 kOe were obtained. Moreover, the thermal transformation arrest phenomenon was confirmed in the Pd 2 Mn 1 . 4 Sn 0 . 6 alloy, and an abnormal heating-induced martensitic transformation (HIMT) behavior was observed., Competing Interests: The authors declare no conflict of interest.

Published
2019
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9. Investigation of the Itinerant Electron Ferromagnetism of Ni 2+ x MnGa 1- x and Co₂VGa Heusler Alloys.

Author

Sakon T, Hayashi Y, Fukuya A, Li D, Honda F, Umetsu RY, Xu X, Oomi G, Kanomata T, and Eto T

Abstract

Experimental investigations into the field dependence of magnetization and temperature dependences of magnetic susceptibility in Ni 2+ x MnGa 1- x ( x = 0.00, 0.02, 0.04) and Co₂VGa Heusler alloy ferromagnets were performed following the spin fluctuation theory of itinerant ferromagnetism, called as "Takahashi theory". We investigated the magnetic field dependence of magnetization at the Curie temperature T C , which is the critical temperature of the ferromagnetic⁻paramagnetic transition, and also at T = 5 K, which concerns the ground state of the ferromagnetic state. The field dependence of the magnetization was analyzed by means of the H vs. M ⁵ dependence, and the field dependence of the ground state at 5 K was investigated by means of an Arrott plot ( H/M vs. M ²) according to the Takahashi theory. As for Ni 2+ x MnGa 1- x , the spin fluctuation parameter in k -space (momentum space, T A ) and that in energy space ( T ₀) obtained at T C and 5 K were almost the same. On the contrary, as for Co₂VGa, the H vs. M ⁵ dependence was not shown at T C . We obtained T A and T ₀ by means of an Arrott plot at 5 K. We created a generalized Rhodes⁻Wohlfarth plot of p eff / p S versus T C / T ₀ for the other ferromagnets. The plot indicated that the relationship between p eff / p S and T ₀/ T C followed Takahashi's theory. We also discussed the spontaneous magnetic moment at the ground state, p S , which was obtained by an Arrott plot at 5 K and the high temperature magnetic moment, p C , at the paramagnetic phase. As for the localized ferromagnet, the p C / p S was 1. As for weak ferromagnets, the p C / p S was larger than 1. In contrast, the p C / p S was smaller than 1 by many Heusler alloys. This is a unique property of Heusler ferromagnets. Half-metallic ferromagnets of Co₂VGa and Co₂MnGa were in accordance with the generalized Rhodes⁻Wohlfarth plot with a k m around 1.4. The magnetic properties of the itinerant electron of these two alloys appeared in the majority bands and was confirmed by Takahashi's theory.

Published
2019
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10. Forced Magnetostrictions and Magnetizations of Ni 2+x MnGa 1-x at Its Curie Temperature.

Author

Sakon T, Hayashi Y, Li D, Honda F, Oomi G, Narumi Y, Hagiwara M, Kanomata T, and Eto T

Abstract

Experimental investigations into the field dependence of magnetization and the relationship between magnetization and magnetostriction in Ni 2+x MnGa 1-x (x = 0.00, 0.02, 0.04) alloy ferromagnets were performed following the self-consistent renormalization (SCR) spin fluctuation theory of itinerant ferromagnetism. In this study, we investigated the magnetization of and magnetostriction on Ni 2+x MnGa 1-x ( x = 0.02, 0.04) to check whether these relations held when the ratio of Ni to Ga and, the valence electron concentration per atom, e / a were varied. When the ratio of Ni to Ga was varied, e/a increased with increasing x. The magnetization results for x = 0.02 ( e / a = 7.535) and 0.04 ( e / a = 7.570) suggest that the critical index δ of H ∝ M δ is around 5.0 at the Curie temperature T C , which is the critical temperature of the ferromagnetic⁻paramagnetic transition. This result confirms Takahashi's spin fluctuation theory and the experimental results of Ni₂MnGa. The spontaneous magnetization p S slightly decreased with increasing x . For x = 0.00, the spin fluctuation parameter in k -space (momentum space; T A ) and that in energy space ( T ₀) were obtained. The relationship between p eff / p S and T C / T ₀ can also be explained by Takahashi's theory, where p eff indicates the effective magnetic moments. We created a generalized Rhodes-Wohlfarth plot of p eff / p S versus T C / T ₀ for other ferromagnets. The plot indicates that the relationship between p eff / p S and T ₀/ T C follows Takahashi's theory. We also measured the magnetostriction for Ni 2+x MnGa 1-x (x = 0.02, 0.04). As a result, at T C , the plot of the magnetostriction (Δ L / L ) versus M ⁴ shows proportionality and crosses the origin. These magnetization and magnetostriction results were analyzed in terms of Takahashi's SCR spin fluctuation theory. We investigated the magnetostriction at the premartensite phase, which is the precursor state to the martensitic transition. In Ni₂MnGa system alloys, the maximum value of magnetostriction is almost proportional to the e / a ., Competing Interests: The authors declare no conflict of interest.

Published
2018
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11. Haemorrhagic snake venom metalloproteases and human ADAMs cleave LRP5/6, which disrupts cell-cell adhesions in vitro and induces haemorrhage in vivo.

Author

Seo T, Sakon T, Nakazawa S, Nishioka A, Watanabe K, Matsumoto K, Akasaka M, Shioi N, Sawada H, and Araki S

Subjects
ADAM Proteins pharmacology, ADAM12 Protein metabolism, ADAM12 Protein pharmacology, Amino Acid Sequence, Animals, Antibodies, Neutralizing pharmacology, Cell Adhesion drug effects, Cell Adhesion physiology, Drug Resistance, Fibrinogen metabolism, Fibronectins metabolism, HeLa Cells, Human Umbilical Vein Endothelial Cells, Humans, Hydrophobic and Hydrophilic Interactions, Low Density Lipoprotein Receptor-Related Protein-5 chemistry, Low Density Lipoprotein Receptor-Related Protein-6 chemistry, Male, Membrane Proteins metabolism, Membrane Proteins pharmacology, Mice, Models, Molecular, Molecular Docking Simulation, Protein Domains, Protein Structure, Secondary drug effects, Recombinant Proteins metabolism, Sequence Alignment, Sequence Homology, Amino Acid, Species Specificity, Vertebrates metabolism, Wnt Signaling Pathway drug effects, Wnt Signaling Pathway physiology, ADAM Proteins metabolism, Apoptosis Regulatory Proteins metabolism, Crotalid Venoms metabolism, Hemorrhage chemically induced, Low Density Lipoprotein Receptor-Related Protein-5 physiology, Low Density Lipoprotein Receptor-Related Protein-6 physiology, Metalloendopeptidases metabolism
Abstract

Snake venom metalloproteases (SVMPs) are members of the a disintegrin and metalloprotease (ADAM) family of proteins, as they possess similar domains. SVMPs are known to elicit snake venom-induced haemorrhage; however, the target proteins and cleavage sites are not known. In this work, we identified a target protein of vascular apoptosis-inducing protein 1 (VAP1), an SVMP, relevant to its ability to induce haemorrhage. VAP1 disrupted cell-cell adhesions by relocating VE-cadherin and γ-catenin from the cell-cell junction to the cytosol, without inducing proteolysis of VE-cadherin. The Wnt receptors low-density lipoprotein receptor-related proteins 5 and 6 (LRP5/6) are known to promote catenin relocation, and are rendered constitutively active in Wnt signalling by truncation. Thus, we examined whether VAP1 cleaves LRP5/6 to induce catenin relocation. Indeed, we found that VAP1 cleaved the extracellular region of LRP6 and LRP5. This cleavage removes four inhibitory β-propeller structures, resulting in activation of LRP5/6. Recombinant human ADAM8 and ADAM12 also cleaved LRP6 at the same site. An antibody against a peptide including the LRP6-cleavage site inhibited VAP1-induced VE-cadherin relocation and disruption of cell-cell adhesions in cultured cells, and blocked haemorrhage in mice in vivo. Intriguingly, animals resistant to the effects of haemorrhagic snake venom express variants of LRP5/6 that lack the VAP1-cleavage site, or low-density lipoprotein receptor domain class A domains involved in formation of the constitutively active form. The results validate LRP5/6 as physiological targets of ADAMs. Furthermore, they indicate that SVMP-induced cleavage of LRP5/6 causes disruption of cell-cell adhesion and haemorrhage, potentially opening new avenues for the treatment of snake bites., (© 2017 Federation of European Biochemical Societies.)

Published
2017
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