Mixed-valence manganites La(1-x)A(x)MnO(3) (A = Sr, Ca) with x approximate to 0.5 can be driven from a ferromagnetic-metallic to an antiferromagnetic-insulating state by a small modification (Delta x) of the carrier density (Delta x/x < 1). For this reason, these oxides have received renewed attention due to their potentially advantageous integration in ferroelectric tunnel junctions of adjustable tunnel barrier width. Interestingly, in thin films, epitaxial strain can modify the electronic and magnetic ground state strongly affecting their magnetotransport properties. Here we exploit the extreme sensitivity of linearly and circularly polarized x-ray absorption to orbital anisotropy and magnetic ordering to explore the role of structural distortions and electronic bandwidth on the orbital occupancy and spin ordering of Mn 3d states in La(0.5)A(0.5)MnO(3) films under various strain states. Mn-55 NMR experiments are used to get information about the electronic and magnetic phase separation and orbital ordering occurring in these films. These results combined with the corresponding structural, magnetic, and electrical characterization allow us to map the strain-dependent orbital and magnetic phase diagrams of half-doped manganites and its dependence on the electronic bandwidth.

Strain-Driven Orbital and Magnetic Orders and Phase Separation in Epitaxial Half-Doped Manganite Films for Tunneling Devices

Barla A;Bondino F;Magnano E;Nappini S;
2016

Abstract

Mixed-valence manganites La(1-x)A(x)MnO(3) (A = Sr, Ca) with x approximate to 0.5 can be driven from a ferromagnetic-metallic to an antiferromagnetic-insulating state by a small modification (Delta x) of the carrier density (Delta x/x < 1). For this reason, these oxides have received renewed attention due to their potentially advantageous integration in ferroelectric tunnel junctions of adjustable tunnel barrier width. Interestingly, in thin films, epitaxial strain can modify the electronic and magnetic ground state strongly affecting their magnetotransport properties. Here we exploit the extreme sensitivity of linearly and circularly polarized x-ray absorption to orbital anisotropy and magnetic ordering to explore the role of structural distortions and electronic bandwidth on the orbital occupancy and spin ordering of Mn 3d states in La(0.5)A(0.5)MnO(3) films under various strain states. Mn-55 NMR experiments are used to get information about the electronic and magnetic phase separation and orbital ordering occurring in these films. These results combined with the corresponding structural, magnetic, and electrical characterization allow us to map the strain-dependent orbital and magnetic phase diagrams of half-doped manganites and its dependence on the electronic bandwidth.
2016
Istituto di Struttura della Materia - ISM - Sede Roma Tor Vergata
Istituto Officina dei Materiali - IOM -
orbital order
half-doped manganites
magnetic order
XMCD
NMR
transition-metal oxides
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/321624
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