Evolution of non-collinear magnetic state of exchange biased ferromagnet/normal metal/ferromagnet/superconductor heterostructure in magnetic field studied by polarized neutron reflectometry

Khaydukov Yu N.; Morari Roman; Zdravkov Vladimir; Mustafa Luqman; Keller Thomas; Keimer Bernhard; Sidorenko Anatolie

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KHAYDUKOV, Yu N., MORARI, Roman, ZDRAVKOV, Vladimir, MUSTAFA, Luqman, KELLER, Thomas, KEIMER, Bernhard, SIDORENKO, Anatolie. Evolution of non-collinear magnetic state of exchange biased ferromagnet/normal metal/ferromagnet/superconductor heterostructure in magnetic field studied by polarized neutron reflectometry. In: Low Temperature Physics, 2017, vol. 43, pp. 837-840. ISSN 1063-777X. DOI: https://doi.org/10.1063/1.4995633

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Low Temperature Physics

Volumul 43 / 2017 / ISSN 1063-777X

Evolution of non-collinear magnetic state of exchange biased ferromagnet/normal metal/ferromagnet/superconductor heterostructure in magnetic field studied by polarized neutron reflectometry

DOI:https://doi.org/10.1063/1.4995633

Pag. 837-840

Khaydukov Yu N.¹²³, Morari Roman⁴, Zdravkov Vladimir⁴⁵, Mustafa Luqman¹, Keller Thomas¹, Keimer Bernhard¹, Sidorenko Anatolie⁴

¹ Max Planck Institute for Solid State Research,
² Max Planck Society Outstation at MLZ,
³ D.V. Skobeltsyn Institute of Nuclear Physics, M.V. Lomonosov Moscow State University,
⁴ Institute of the Electronic Engineering and Nanotechnologies "D. Ghitu" of the Academy of Sciences of Moldova,
⁵ University of Augsburg

Disponibil în IBN: 18 februarie 2018

Rezumat

By using waveguide enhanced polarized neutron reflectometry we have characterized the magnetic state of exchange biased CoO_x(20 nm)/Co(4 nm)/Nb(5 nm)/Co(2 nm)/Nb(25 nm)/Al2O3 system. Measurement allowed to determine the dependence of the inclination angles of magnetic moment of the both Co layers as a function of applied field. According to the measurement the soft Co(2 nm) layer magnetization turns towards external field in magnetic fields as small as 20 Oe. In contrast direction of magnetic moment of Co(4 nm) layer cannot be altered in magnetic fields as high as 2 kOe.