Interfacial coupling and negative spin Hall magnetoresistance in Pt/NiO/YIG

Inserting an antiferromagnetic layer of NiO between Pt and Y3Fe5O12 (YIG) changes the positive sign of the spin Hall magnetoresistance (SMR) in Pt/YIG to a negative sign at low temperature. Here, we use polarized neutron reflectometry to explore the coupling between NiO and YIG to understand the mechanism of the negative SMR. A weak uncompensated magnetic moment is observed in the NiO and the direction of this moment is perpendicular to YIG. Therefore, we infer that the spin axis of NiO is perpendicular to YIG. This result directly supports the explanation that the negative SMR results from the pure spin current reflected back by the NiO layer and the spin-flop coupling between NiO and YIG.Inserting an antiferromagnetic layer of NiO between Pt and Y3Fe5O12 (YIG) changes the positive sign of the spin Hall magnetoresistance (SMR) in Pt/YIG to a negative sign at low temperature. Here, we use polarized neutron reflectometry to explore the coupling between NiO and YIG to understand the mechanism of the negative SMR. A weak uncompensated magnetic moment is observed in the NiO and the direction of this moment is perpendicular to YIG. Therefore, we infer that the spin axis of NiO is perpendicular to YIG. This result directly supports the explanation that the negative SMR results from the pure spin current reflected back by the NiO layer and the spin-flop coupling between NiO and YIG.

[1]  K. Xia,et al.  Observation of spin-orbit magnetoresistance in metallic thin films on magnetic insulators , 2017, Science Advances.

[2]  B. Hickey,et al.  Interfacial Origin of the Magnetisation Suppression of Thin Film Yttrium Iron Garnet , 2017, Scientific Reports.

[3]  T. Palstra,et al.  Negative spin Hall magnetoresistance of Pt on the bulk easy-plane antiferromagnet NiO , 2017, 1706.03004.

[4]  Joshaniel F. K. Cooper,et al.  Unexpected structural and magnetic depth dependence of YIG thin films , 2017, 1703.08752.

[5]  Fengyuan Yang,et al.  Comparative determination of Y3Fe5O12/Pt interfacial spin mixing conductance by spin-Hall magnetoresistance and spin pumping , 2017 .

[6]  C. Chien,et al.  Electrical Detection of Spin Backflow from an Antiferromagnetic Insulator/Y_{3}Fe_{5}O_{12} Interface. , 2016, Physical review letters.

[7]  E. Saitoh,et al.  Tunable Sign Change of Spin Hall Magnetoresistance in Pt/NiO/YIG Structures. , 2016, Physical review letters.

[8]  Di Wu,et al.  Spin rectification induced by spin Hall magnetoresistance at room temperature , 2016 .

[9]  Run‐Wei Li,et al.  Effect of NiO inserted layer on spin-Hall magnetoresistance in Pt/NiO/YIG heterostructures , 2016, 1604.03272.

[10]  C. Chien,et al.  Enhancement of Thermally Injected Spin Current through an Antiferromagnetic Insulator. , 2016, Physical review letters.

[11]  K. Ollefs,et al.  Absence of magnetic proximity effects in magnetoresistive Pt / CoF e 2 O 4 hybrid interfaces , 2015, 1510.01080.

[12]  M. Hayashi,et al.  Spin Hall Magnetoresistance in Metallic Bilayers. , 2015, Physical review letters.

[13]  M. Althammer,et al.  Theory of spin Hall magnetoresistance (SMR) and related phenomena , 2014, Journal of physics. Condensed matter : an Institute of Physics journal.

[14]  J. Borchers,et al.  Electric Field Control of Interfacial Ferromagnetism in CaMnO_{3}/CaRuO_{3} Heterostructures. , 2015, Physical review letters.

[15]  Shiming Zhou,et al.  Magnetotransport in metal/insulating-ferromagnet heterostructures: Spin Hall magnetoresistance or magnetic proximity effect , 2015, 1503.07388.

[16]  T. Kikkawa,et al.  Spin Hall magnetoresistance at high temperatures , 2015 .

[17]  Fengyuan Yang,et al.  Antiferromagnonic spin transport from Y3Fe5O12 into NiO. , 2014, Physical review letters.

[18]  C. Chien,et al.  Physical origins of the new magnetoresistance in Pt/YIG. , 2014, Physical review letters.

[19]  F. Golmar,et al.  Spin Hall magnetoresistance at Pt/CoFe2O4 interfaces and texture effects , 2013, 1307.1267.

[20]  Timo Kuschel,et al.  Quantitative study of the spin Hall magnetoresistance in ferromagnetic insulator/normal metal hybrids , 2013, 1304.6151.

[21]  L Sun,et al.  Pt magnetic polarization on Y3Fe5O12 and magnetotransport characteristics. , 2013, Physical review letters.

[22]  J. B. Youssef,et al.  Comparative measurements of inverse spin Hall effects and magnetoresistance in YIG/Pt and YIG/Ta , 2013, 1302.4416.

[23]  Eiji Saitoh,et al.  Theory of spin Hall magnetoresistance , 2013, 1302.1352.

[24]  R. Gross,et al.  Spin Hall magnetoresistance induced by a nonequilibrium proximity effect. , 2012, Physical review letters.

[25]  J. Zhu,et al.  Experimental study of the x-ray linear dichroism of NiO films grown on Fe(001) , 2012 .

[26]  R. Dalgliesh,et al.  Reflectometry techniques on the Second Target Station at ISIS: Methods and science , 2011 .

[27]  Yizheng Wu,et al.  In-plane spin reorientation transition in Fe/NiO bilayers on Ag(1,1,10) , 2011 .

[28]  A. Scholl,et al.  Effect of NiO spin orientation on the magnetic anisotropy of the Fe film in epitaxially grown Fe/NiO/Ag(001) and Fe/NiO/MgO(001) , 2010 .

[29]  L. Tjeng,et al.  Impact of interface orientation on magnetic coupling in highly ordered systems: A case study of the low-indexed Fe3O4/NiO interfaces , 2008 .

[30]  Gabriella Andersson,et al.  GenX: an extensible X-ray reflectivity refinement program utilizing differential evolution , 2007 .

[31]  Youwei Du,et al.  Ferromagnetic-like behavior of ultrafine NiO nanocrystallites , 2004 .

[32]  H. Zabel,et al.  Polarized neutron reflectivity and scattering studies of magnetic heterostructures , 2003 .

[33]  M. Stiles,et al.  Coercivity in exchange-bias bilayers , 2001 .

[34]  Kentaro Takano,et al.  Exchange anisotropy — a review , 1999 .

[35]  Ambrose,et al.  Finite-size effects and uncompensated magnetization in thin antiferromagnetic CoO layers. , 1996, Physical review letters.

[36]  P. Röschmann,et al.  Saturation magnetization of gallium‐substituted yttrium iron garnet , 1974 .

[37]  W. Schuele,et al.  Appearance of a Weak Ferromagnetism in Fine Particles of Antiferromagnetic Materials , 1962 .

[38]  W. Roth Magnetic Structures of MnO, FeO, CoO, and NiO , 1958 .

[39]  C. Shull,et al.  NEUTRON DIFFRACTION BY PARAMAGNETIC AND ANTIFERROMAGNETIC SUBSTANCES , 1951 .