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Interface-induced anomalous Nernst effect in Fe_3O_4/Pt-based heterostructures

机译:界面诱导的FE_3O_4 / PT基异质结构中的异常NERNST效应

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摘要

We have studied the anomalous Nernst effect (ANE) in [Fe3O4/Pt]-based heterostructures grown at high temperature, by measuring the ANE-induced electric field with a magnetic field applied normal to the sample surface, in the perpendicular magnetized configuration, where only the ANEs from the ferromagnetic layers or magnetic proximity effects can be detected. An ANE voltage is observed for [Fe3O4/Pt] n multilayers, and we further investigated its origin by performing measurements in [Fe3O4/Pt/Fe3O4] trilayers as a function of the Pt thickness. Our results suggest the presence of an interface-induced ANE in the metallic layer, possibly driven by a heat induced subnanometer interdiffusion which affects the nature of the Fe3O4/Pt interface. Despite this ANE, the spin Seebeck effect is the dominant mechanism for the transverse thermoelectric voltage in the in-plane magnetized configuration, accounting for about 70% of the voltage in the multilayers. Published under license by AIP Publishing.
机译:我们已经在高温下生长的[Fe3O4 / pt]的异质结构中研究了异常的内部效果(ANE),通过用垂直于样品表面施加垂直于样品表面的磁场测量抗孔诱导的电场,在其中只能检测到来自铁磁层或磁性接近效应的肛门。对于[Fe3O4 / pt] n多层观察ANE电压,通过作为PT厚度的函数,通过在[Fe3O4 / pt / Fe3O4]三层体中进行测量来进一步研究其来源。我们的结果表明,金属层中存在界面诱导的Ane,可能由热诱导的亚风速相互作用驱动,影响Fe3O4 / Pt接口的性质。尽管如此,Spin eBeck效果是在平面内磁化配置中横向热电电压的主导机制,占多层电压的约70%。通过AIP发布在许可证下发布。

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  • 来源
    《Applied Physics Letters》 |2019年第11期|113902.1-113902.5|共5页
  • 作者

    Ramos R.; Kikkawa T.; Anadon A.; Lucas I.; Niizeki T.; Uchida K.; Algarabel P. A.; Morellon L.; Aguirre M. H.; Ibarra M. R.; Saitoh E.;

  • 作者单位

    Tohoku Univ Adv Inst Mat Res Sendai Miyagi 9808577 Japan;

    Tohoku Univ Adv Inst Mat Res Sendai Miyagi 9808577 Japan|Tohoku Univ Inst Mat Res Sendai Miyagi 9808577 Japan;

    IMDEA Nanociencia Campus Cantoblanco Madrid 28049 Spain;

    Univ Zaragoza Inst Nanociencia Aragon E-50018 Zaragoza Spain|Univ Zaragoza Dept Fis Mat Condensada E-50009 Zaragoza Spain|Fdn Inst Nanociencia Aragon E-50018 Zaragoza Spain;

    Tohoku Univ Adv Inst Mat Res Sendai Miyagi 9808577 Japan;

    Tohoku Univ Inst Mat Res Sendai Miyagi 9808577 Japan|Natl Inst Mat Sci Tsukuba Ibaraki 3050047 Japan|Tohoku Univ Ctr Spintron Res Network Sendai Miyagi 9808577 Japan;

    Univ Zaragoza Dept Fis Mat Condensada E-50009 Zaragoza Spain|Univ Zaragoza Inst Ciencia Mat Aragon E-50009 Zaragoza Spain|CSIC E-50009 Zaragoza Spain;

    Univ Zaragoza Inst Nanociencia Aragon E-50018 Zaragoza Spain|Univ Zaragoza Dept Fis Mat Condensada E-50009 Zaragoza Spain|Fdn Inst Nanociencia Aragon E-50018 Zaragoza Spain;

    Univ Zaragoza Inst Nanociencia Aragon E-50018 Zaragoza Spain|Univ Zaragoza Dept Fis Mat Condensada E-50009 Zaragoza Spain|Fdn Inst Nanociencia Aragon E-50018 Zaragoza Spain|Univ Zaragoza Lab Microscopias Avanzadas E-50018 Zaragoza Spain;

    Univ Zaragoza Inst Nanociencia Aragon E-50018 Zaragoza Spain|Univ Zaragoza Dept Fis Mat Condensada E-50009 Zaragoza Spain|Fdn Inst Nanociencia Aragon E-50018 Zaragoza Spain|Univ Zaragoza Lab Microscopias Avanzadas E-50018 Zaragoza Spain;

    Tohoku Univ Adv Inst Mat Res Sendai Miyagi 9808577 Japan|Tohoku Univ Inst Mat Res Sendai Miyagi 9808577 Japan|Tohoku Univ Ctr Spintron Res Network Sendai Miyagi 9808577 Japan;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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  • 入库时间 2022-08-18 22:17:43

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