Unravelling the effect of SrTiO3 antiferrodistortive phase transition on the magnetic properties of La0.7Sr0.3MnO3 thin films
| authors | Mota, DA; Barcelay, YR; Senos, AMR; Fernandes, CM; Tavares, PB; Gomes, IT; Sa, P; Fernandes, L; Almeida, BG; Figueiras, F; Vaghefi, PM; Amaral, VS; Almeida, A; de la Cruz, JP; Moreira, JA |
| nationality | International |
| journal | JOURNAL OF PHYSICS D-APPLIED PHYSICS |
| author keywords | thin films; magnetic domain reconstruction; interface-mediated coupling; magnetoelasticity |
| keywords | LATTICE-DISTORTIONS; DIFFRACTION; MANGANITES; EPITAXY |
| abstract | Epitaxial La0.7Sr0.3MnO3 (LSMO) thin films, with different thicknesses ranging from 20 to 330 nm, were deposited on (1 0 0)-oriented strontium titanate (STO) substrates by pulsed laser deposition, with their structure and morphology characterized at room temperature. The magnetic and electric transport properties of the as-processed thin films reveal an abnormal behaviour in the temperature dependent magnetization M(T) below the antiferrodistortive STO phase transition (T-STO), and also an anomaly in the magnetoresistance and electrical resistivity close to the same temperature. Films with thickness <= 100 nm show an in-excess magnetization and pronounced changes in the coercivity due to the interface-mediated magnetoelastic coupling with antiferrodistortive domain wall movement occurring below T-STO. However, in thicker LSMO thin films, an in-defect magnetization is observed. This reversed behaviour can be understood with the emergence in the upper layer of the film, of a columnar structure needed to relax the elastic energy stored in the film, which leads to randomly oriented magnetic domain reconstructions. For enough high-applied magnetic fields, as thermodynamic equilibrium is reached, a full suppression of the anomalous magnetization occurs, wherein the temperature dependence of the magnetization starts to follow the expected Brillouin behaviour. |
| publisher | IOP PUBLISHING LTD |
| issn | 0022-3727 |
| year published | 2014 |
| volume | 47 |
| issue | 43 |
| digital object identifier (doi) | 10.1088/0022-3727/47/43/435002 |
| web of science category | Physics, Applied |
| subject category | Physics |
| unique article identifier | WOS:000343150500004 |
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