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論文

Composition dependence of the anomalous Nernst effect in Fe$$_{4-x}$$Mn$$_{x}$$N and Fe$$_{4-y}$$Co$$_{y}$$N films

Yin, W.*; 伊藤 啓太*; 坪和 優佑*; 辻川 雅人*; 白井 正文*; 梅津 理恵*; 高梨 弘毅

Journal of Magnetism and Magnetic Materials, 628, p.173157_1 - 173157_8, 2025/09

https://doi.org/10.1016/j.jmmm.2025.173157
 被引用回数:0 パーセンタイル:0.00(Materials Science, Multidisciplinary)

Fe$$_{4}$$N exhibits a large anomalous Nernst effect (ANE), which motivates a systematic study of enhancing the anomalous Nernst coefficient (S$$_{rm ANE}$$) by modulating its electronic and magnetic structures. In this study, Mn and Co substitution effects for Fe in Fe$$_{4}$$N on S$$_{ANE}$$ were investigated. Fe$$_{4-x}$$Mn$$_{x}$$N and Fe$$_{4-y}$$Co$$_{y}$$N films in wide ranges of x and y were grown epitaxially on MgO(001) and (LaAlO$$_{3}$$)$$_{0.3}$$(Sr$$_{2}$$TaAlO$$_{6}$$)$$_{0.7}$$(001) substrates, respectively, using molecular beam epitaxy. The S$$_{rm ANE}$$ value of the Fe$$_{4}$$N film is suppressed by substituting Fe with Mn or Co. By measuring the ANE, Seebeck effect, and anomalous Hall effect, the transverse thermoelectric conductivity ($$alpha_{xy}$$) was evaluated. The composition dependence of S$$_{ANE}$$ was dominated by the change of $$alpha_{xy}$$ for both Fe$$_{4-x}$$Mn$$_{x}$$N and Fe$$_{4-y}$$Co$$_{y}$$N films. First-principles calculations were conducted for the transverse electric conductivity ($$sigma_{xy}$$) and $$alpha_{xy}$$ of Fe$$_{4}$$N and Fe$$_{3.1}$$Co$$_{0.9}$$N, and large $$alpha_{xy}$$ leading to large S$$_{ANE}$$ was predicted in Fe$$_{3.1}$$Co$$_{0.9}$$N.

論文

Spin caloritronics in metallic superlattices

関 剛斎*; 内田 健一*; 高梨 弘毅

Journal of Physics; Condensed Matter, 36(33), p.333001_1 - 333001_11, 2024/05

https://doi.org/10.1088/1361-648X/ad4761
 被引用回数:1 パーセンタイル:12.05(Physics, Condensed Matter)

Spin caloritronics, a research field studying on the interconversion between a charge current (J$$_{rm c}$$) and a heat current (J$$_{rm q}$$) mediated by a spin current (J$$_{rm s}$$) and/or magnetization (M), has attracted much attention not only for academic interest but also for practical applications. Newly discovered spin-caloritronic phenomena such as the spin Seebeck effect (SSE) have stimulated the renewed interest in the thermoelectric phenomena of a magnet, which have been known for a long time, e.g. the anomalous Nernst effect (ANE). These spin-caloritronic phenomena involving the SSE and the ANE have provided with a new direction for thermoelectric conversion exploiting J$$_{rm s}$$ and/or M. Importantly, the symmetry of ANE allows the thermoelectric conversion in the transverse configuration between J$$_{rm q}$$ and J$$_{rm c}$$. Although the transverse configuration is totally different from the conventional longitudinal configuration based on the Seebeck effect and has many advantages, we are still facing several issues that need to be solved before developing practical applications. The primal issue is the improvement of conversion efficiency. In the case of ANE-based applications, a material with a large anomalous Nernst coefficient (S$$_{rm ANE}$$) is the key for solving the issue. This review article introduces the increase of S$$_{rm ANE}$$ can be achieved by forming superlattice structures, which has been demonstrated for several kinds of materials combinations. The overall picture of studies on spin caloritronics is first surveyed. Then, we mention the pioneering work on the transverse thermoelectric conversion in superlattice structures, which was performed using Fe-based metallic superlattices, and show the recent studies for the Ni-based metallic superlattices and the ordered alloy-based metallic superlattices.

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