Interface-induced anomalous Nernst effect in Fe3O4/Pt-based heterostructures

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

doi:10.1063/1.5063553

Interface-induced anomalous Nernst effect in Fe₃O₄/Pt-based heterostructures

R. Ramos, T. Kikkawa, A. Anadón, I. Lucas, T. Niizeki, K. Uchida, P. A. Algarabel, L. Morellón, M. H. Aguirre, M. R. Ibarra, E. Saitoh

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Abstract

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.

Original language	English
Article number	113902
Journal	Applied Physics Letters
Volume	114
Issue number	11
DOIs	https://doi.org/10.1063/1.5063553
Publication status	Published - 2019 Mar 18

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@article{f1f021486724447f837d70539dc51b37,

title = "Interface-induced anomalous Nernst effect in Fe3O4/Pt-based heterostructures",

abstract = "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.",

author = "R. Ramos and T. Kikkawa and A. Anad{\'o}n and I. Lucas and T. Niizeki and K. Uchida and Algarabel, {P. A.} and L. Morell{\'o}n and Aguirre, {M. H.} and Ibarra, {M. R.} and E. Saitoh",

note = "Funding Information: We thank T. Kuschel for fruitful discussions. This work was supported by the ERATO “Spin Quantum Rectification Project” (Grant No. JPMJER1402) and PRESTO “Phase Interfaces for Highly Efficient Energy Utilization” (Grant No. JPMJPR12C1) from JST, Japan; Grant-in-Aid for Scientific Research (A) (Grant No. JP15H02012), Grant-in-Aid for Scientific Research on Innovative Area, “Nano Spin Conversion Science” (Grant No. JP26103005) and Grant-in-Aid for Research Activity Start-up (No. JP18H05841) from JSPS KAKENHI, Japan; H2020-MSCA-RISE-2016 SPICOLOST (Grant No. 734187); and the Spanish Ministry of Economy and Competitiveness (Grant No. MAT2017-82970-C2, including FEDER) and the Aragon regional government (E26), Spain. The microscopy works were conducted in the LMA at INA, Universidad de Zaragoza. A.A. acknowledges the EU{\textquoteright}s H2020 research and innovation programme under Grant Agreement No. 737116 (ByAXON), MINECO through Project Nos. FIS2016-78591-C3-1-R (SKYTRON) and FLAG ERA Graphene Flagship PCIN-2015-111 (SOgraph), Comunidad de Madrid through S2018/NMT-4321 (NANOMAGCOST-CM). Publisher Copyright: {\textcopyright} 2019 Author(s).",

year = "2019",

month = mar,

day = "18",

doi = "10.1063/1.5063553",

language = "English",

volume = "114",

journal = "Applied Physics Letters",

issn = "0003-6951",

publisher = "American Institute of Physics",

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T1 - Interface-induced anomalous Nernst effect in Fe3O4/Pt-based heterostructures

AU - Ramos, R.

AU - Kikkawa, T.

AU - Anadón, A.

AU - Lucas, I.

AU - Niizeki, T.

AU - Uchida, K.

AU - Algarabel, P. A.

AU - Morellón, L.

AU - Aguirre, M. H.

AU - Ibarra, M. R.

AU - Saitoh, E.

N1 - Funding Information: We thank T. Kuschel for fruitful discussions. This work was supported by the ERATO “Spin Quantum Rectification Project” (Grant No. JPMJER1402) and PRESTO “Phase Interfaces for Highly Efficient Energy Utilization” (Grant No. JPMJPR12C1) from JST, Japan; Grant-in-Aid for Scientific Research (A) (Grant No. JP15H02012), Grant-in-Aid for Scientific Research on Innovative Area, “Nano Spin Conversion Science” (Grant No. JP26103005) and Grant-in-Aid for Research Activity Start-up (No. JP18H05841) from JSPS KAKENHI, Japan; H2020-MSCA-RISE-2016 SPICOLOST (Grant No. 734187); and the Spanish Ministry of Economy and Competitiveness (Grant No. MAT2017-82970-C2, including FEDER) and the Aragon regional government (E26), Spain. The microscopy works were conducted in the LMA at INA, Universidad de Zaragoza. A.A. acknowledges the EU’s H2020 research and innovation programme under Grant Agreement No. 737116 (ByAXON), MINECO through Project Nos. FIS2016-78591-C3-1-R (SKYTRON) and FLAG ERA Graphene Flagship PCIN-2015-111 (SOgraph), Comunidad de Madrid through S2018/NMT-4321 (NANOMAGCOST-CM). Publisher Copyright: © 2019 Author(s).

PY - 2019/3/18

Y1 - 2019/3/18

N2 - 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.

AB - 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.

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DO - 10.1063/1.5063553

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VL - 114

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JF - Applied Physics Letters

IS - 11

M1 - 113902

ER -

Interface-induced anomalous Nernst effect in Fe₃O₄/Pt-based heterostructures

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