Y
Yoshihiro Shimazu
Researcher at Yokohama National University
Publications - 62
Citations - 270
Yoshihiro Shimazu is an academic researcher from Yokohama National University. The author has contributed to research in topics: Flux qubit & Josephson effect. The author has an hindex of 8, co-authored 60 publications receiving 245 citations. Previous affiliations of Yoshihiro Shimazu include University of Tokyo.
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Environmental Effects on Hysteresis of Transfer Characteristics in Molybdenum Disulfide Field-Effect Transistors
TL;DR: The suppression of the hysteresis or instability in the easily attainable temperature range without surface passivation is highly advantageous for the device application of the MoS2 field-effect transistors.
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Magnetic nanostructures fabricated by the atomic force microscopy nano-lithography technique
TL;DR: In this article, a local oxidation technique using atomic force microscopy (AFM) was performed in order to modify magnetic domain structures in ferromagnetic nanostructures, and a Co-oxide nanowire across a Co nanodot was divided into two parts of the domain.
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Dependence of coulomb blockade in ultrasmall single tunnel junctions on tunnel resistance
TL;DR: In this article, the authors studied small-capacitance single tunnel junctions with various tunnel resistances in order to reduce the environmental effect and observe the Coulomb blockade clearly, they have adopted high-impedance leads which consist of multiple junctions to isolate the single junction.
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Magnetic field effects on sol-gel phase changes in aqueous polymers
TL;DR: Magnetic field effects on the temperature-induced phase change for sol-gel systems including the natural high polymer agarose or methyl cellulose were studied in this article, where the gel melting temperature T m was observed after the gels were formed under the influence of magnetic fields up 5
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Magnetic Field-Induced Effects on the Melting Temperatures of Polymer Gels.
TL;DR: In this paper, the melting temperature of aqueous agarose and methyl cellulose gels was investigated under the influence of magnetic fields up to 5 T. The melting temperature was reduced with increasing polymer concentration and was saturated in magnetic fields below 3 T.