Naoki Shikama scite author profile

[1] Hydrographic data acquired during 2001 by Argo profiling floats deployed in the Kuroshio recirculation region are used to verify the inference that mesoscale eddies prevailing in the recirculation region play an important role in the formation and transport of North Pacific Subtropical Mode Water (NPSTMW). That is, the deeper winter mixed layer is formed preferentially where the thermocline is deeper in association with anticyclonic eddies. In the succeeding seasons, mesoscale eddies retain NPSTMW during their southwestward movement from the NPSTMW formation region, so that anticylonic eddies contribute substantially to the NPSTMW transportation. The spatial distributions of the mixed layer depth in winter and the NPSTMW thickness in the succeeding seasons, based on the float data, suggest that they are affected by mesoscale eddies. The float data also provide the statistical relations of these quantities against the thermocline depth, which are consistent with our inference.

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Systematic study on transport properties of FeSe thin films with various degrees of strain

Nabeshima

Kawai

Ishikawa

et al. 2018

Jpn. J. Appl. Phys.

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We performed systematic studies on the transport properties of FeSe thin films with controlled degrees of in-plane lattice strain, including both tensile and compressive strains. The superconducting transition temperature, T c , increases up to 12 K for films with compressive strain while the superconductivity disappears for films with large tensile strains. On the other hand, the structural (nematic) transition temperature, T s , slightly decreases as the in-plane strain is more compressive. This suggests that the structural transition can be extinguished by a smaller amount of Te substitution for films with more compressive strain, which may lead to higher T c in FeSe 1−x Te x . It was also found that the carrier densities evaluated via transport properties increase as the in-plane strain becomes more compressive. A clear correlation between T c and the carrier densities suggests that it is essential to increase carrier densities for the T c enhancement of iron chalcogenides. a)

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Biogeochemical evidence of large diapycnal diffusivity associated with the subtropical mode water of the North Pacific

Sukigara¹,

Suga²,

Saino³

et al. 2011

J Oceanogr

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Formation Process of North Pacific Intermediate Water Revealed by Profiling Floats Set to Drift on 26.7 Isopycnal Surface

Shimizu

Iwao

Yasuda

et al. 2004

Journal of Oceanography

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Naoki Shikama

Global surface layer salinity change detected by Argo and its implication for hydrological cycle intensification

A role of eddies in formation and transport of North Pacific Subtropical Mode Water

Systematic study on transport properties of FeSe thin films with various degrees of strain

Biogeochemical evidence of large diapycnal diffusivity associated with the subtropical mode water of the North Pacific

Formation Process of North Pacific Intermediate Water Revealed by Profiling Floats Set to Drift on 26.7 Isopycnal Surface

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