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{"title":"Spin-Thermoelectric Generation Associated with Magnetization Dynamics in the Insulator-Based Generators Fabricated from Liquid Phase Epitaxial Yttrium Iron Garnet, Bi-Substituted YIG and Bi- and Al-Substituted YIG Films","authors":"Masaaki Imamura, Hironori Asada, Ryota Matsuda, Daisuke Tashima, Jiro Kitagawa","doi":"10.1002/tee.24137","DOIUrl":null,"url":null,"abstract":"<p>An insulator-based spin-thermoelectric (STE) generator is composed of a thin paramagnetic metal (PM: Pt) layer for generating the STE voltage <i>V</i><sub>STE</sub> via the inverse spin Hall effect and a ferrimagnetic insulator (FMI) film or slab used for producing spin-wave spin currents due to a temperature gradient <span></span><math>\n <semantics>\n <mrow>\n <mo>∇</mo>\n <mi>T</mi>\n </mrow>\n <annotation>$$ \\nabla T $$</annotation>\n </semantics></math>. Yttrium iron garnet (YIG) is a key material used for the FMI of STE generators. We examined in detail the ferromagnetic resonance (FMR) properties of YIG (Y<sub>3</sub>Fe<sub>5</sub>O<sub>12</sub>), Bi-substituted YIG (Y<sub>3-<i>x</i></sub>Bi<sub><i>x</i></sub>Fe<sub>5</sub>O<sub>12</sub>) and Bi- and Al-substituted YIG (Y<sub>3-<i>x</i></sub>Bi<sub><i>x</i></sub>Fe<sub>5-y</sub>Al<sub><i>y</i></sub>O<sub>12</sub>) films grown by liquid phase epitaxy (LPE). Bi-substituted YIG films exhibited the large FMR damping and high STE voltage when the films were incorporated in the STE generator. The LPE-grown Y<sub>2.35</sub>Bi<sub>0.65</sub>Fe<sub>5</sub>O<sub>12</sub> film exhibited the FMR linewidth Δ<i>H</i> of 30 mT and the <i>V</i><sub>STE</sub> of 70 μV for the ∇<i>T</i> of <span></span><math>\n <semantics>\n <mrow>\n <mn>90</mn>\n <mo>×</mo>\n <msup>\n <mn>10</mn>\n <mrow>\n <mo>−</mo>\n <mn>3</mn>\n </mrow>\n </msup>\n <mo>°</mo>\n <mi>C</mi>\n <mo>/</mo>\n <mi>μm</mi>\n </mrow>\n <annotation>$$ 90\\times {10}^{-3{}^{\\circ}}C/\\upmu \\mathrm{m} $$</annotation>\n </semantics></math>. This paper comprehensively presents the origin of the STE generation in the insulator-based generators on the basis of the results of FMR and STE measurements. To clarify the origin of STE generation in the generators fabricated from single crystal YIG (YIG, Bi-substituted YIG and Bi- and Al-substituted YIG) films grown by LPE, three principal factors are explained: (a) thermal energy transfer from the phonon system to the spin system, which strengthens the heat excitation of spin precession, through the spin–orbit coupling enhanced by the growth-induced magnetic anisotropy of LPE-grown YIG films, (b) in the YIG films incorporated in the STE generators, the generation of spin-wave spin currents owing its origin to the ferromagnetic spin exchange interaction acting between neighboring spins due to <span></span><math>\n <semantics>\n <mrow>\n <mo>∇</mo>\n <mi>T</mi>\n </mrow>\n <annotation>$$ \\nabla T $$</annotation>\n </semantics></math>, and (c) how the spin currents pumped into the Pt layer from the YIG film at the Pt/YIG bilayer interface are affected by the magnetization processes of single crystal YIG films. It is concluded that the STE generation of insulator-based STE generators can be explained from a viewpoint of the spin dynamics under the effect of <span></span><math>\n <semantics>\n <mrow>\n <mo>∇</mo>\n <mi>T</mi>\n </mrow>\n <annotation>$$ \\nabla T $$</annotation>\n </semantics></math> in the Pt/YIG bilayer structure. © 2024 Institute of Electrical Engineers of Japan and Wiley Periodicals LLC.</p>","PeriodicalId":13435,"journal":{"name":"IEEJ Transactions on Electrical and Electronic Engineering","volume":"19 11","pages":"1770-1780"},"PeriodicalIF":1.0000,"publicationDate":"2024-06-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"IEEJ Transactions on Electrical and Electronic Engineering","FirstCategoryId":"5","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/tee.24137","RegionNum":4,"RegionCategory":"工程技术","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"ENGINEERING, ELECTRICAL & ELECTRONIC","Score":null,"Total":0}
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Abstract
An insulator-based spin-thermoelectric (STE) generator is composed of a thin paramagnetic metal (PM: Pt) layer for generating the STE voltage V STE via the inverse spin Hall effect and a ferrimagnetic insulator (FMI) film or slab used for producing spin-wave spin currents due to a temperature gradient
∇
T
$$ \nabla T $$
. Yttrium iron garnet (YIG) is a key material used for the FMI of STE generators. We examined in detail the ferromagnetic resonance (FMR) properties of YIG (Y3 Fe5 O12 ), Bi-substituted YIG (Y3-x Bix 5 O12 ) and Bi- and Al-substituted YIG (Y3-x Bix 5-y Aly 12 ) films grown by liquid phase epitaxy (LPE). Bi-substituted YIG films exhibited the large FMR damping and high STE voltage when the films were incorporated in the STE generator. The LPE-grown Y2.35 Bi0.65 Fe5 O12 film exhibited the FMR linewidth ΔH of 30 mT and the V STE of 70 μV for the ∇T of
90
×
10
−
3
°
C
/
μm
$$ 90\times {10}^{-3{}^{\circ}}C/\upmu \mathrm{m} $$
. This paper comprehensively presents the origin of the STE generation in the insulator-based generators on the basis of the results of FMR and STE measurements. To clarify the origin of STE generation in the generators fabricated from single crystal YIG (YIG, Bi-substituted YIG and Bi- and Al-substituted YIG) films grown by LPE, three principal factors are explained: (a) thermal energy transfer from the phonon system to the spin system, which strengthens the heat excitation of spin precession, through the spin–orbit coupling enhanced by the growth-induced magnetic anisotropy of LPE-grown YIG films, (b) in the YIG films incorporated in the STE generators, the generation of spin-wave spin currents owing its origin to the ferromagnetic spin exchange interaction acting between neighboring spins due to
∇
T
$$ \nabla T $$
, and (c) how the spin currents pumped into the Pt layer from the YIG film at the Pt/YIG bilayer interface are affected by the magnetization processes of single crystal YIG films. It is concluded that the STE generation of insulator-based STE generators can be explained from a viewpoint of the spin dynamics under the effect of
∇
T
$$ \nabla T $$
in the Pt/YIG bilayer structure. © 2024 Institute of Electrical Engineers of Japan and Wiley Periodicals LLC.
利用液相外延钇铁石榴石、双取代钇铁石榴石以及双和铝取代钇铁石榴石薄膜制造的绝缘体基发电机中与磁化动力学相关的自旋热电发电现象
基于绝缘体的自旋热电(STE)发生器由一个薄顺磁性金属(PM:Pt)层和一个铁磁性绝缘体(FMI)薄膜或板坯组成,前者用于通过反向自旋霍尔效应产生 STE 电压 VSTE,后者用于通过温度梯度产生自旋波自旋电流。钇铁石榴石(YIG)是用于 STE 发生器 FMI 的关键材料。我们详细研究了通过液相外延(LPE)生长的 YIG(Y3Fe5O12)、双取代 YIG(Y3-xBixFe5O12)以及双和铝取代 YIG(Y3-xBixFe5-yAlyO12)薄膜的铁磁共振(FMR)特性。当薄膜加入 STE 发生器时,双取代 YIG 薄膜表现出较大的 FMR 阻尼和较高的 STE 电压。LPE 生长的 Y2.35Bi0.65Fe5O12 薄膜的 FMR 线宽 ΔH 为 30 mT,∇T 为 0.5 μT 时的 VSTE 为 70 μV。 本文在 FMR 和 STE 测量结果的基础上,全面介绍了绝缘体型发生器中 STE 发生的起源。为了阐明用 LPE 生长的单晶 YIG(YIG、Bi-取代 YIG 和 Bi- 和 Al 取代 YIG)薄膜制造的发生器中 STE 产生的原因,本文解释了三个主要因素:(a) 声子系统向自旋系统的热能转移,通过 LPE 生长的 YIG 薄膜的生长诱导磁各向异性所增强的自旋轨道耦合,加强了自旋前驱的热激发;(b) 在 STE 发生器中加入 YIG 薄膜、(c) 在铂/YIG 双层界面上从 YIG 薄膜泵入铂层的自旋电流如何受到单晶 YIG 薄膜磁化过程的影响。结论是,绝缘体型 STE 发生器的 STE 产生可以从 Pt/YIG 双层结构影响下的自旋动力学角度来解释。© 2024 日本电气工程师学会和 Wiley Periodicals LLC。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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