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Strain-Induced Domain Structure and Its Impact on Magnetic and Transport Properties of Gd0.6Ca0.4MnO3 Thin Films.


ABSTRACT: The evolution of lattice strain on crystallographic domain structures and magnetic properties of epitaxial low-bandwidth manganite Gd0.6Ca0.4MnO3 (GCMO) films have been studied with films on different substrates: SrTiO3, (LaAlO3)0.3(Sr2AlTaO6)0.7, SrLaAlO3, and MgO. The X-ray diffraction data reveals that all of the films, except the films on MgO, are epitaxial and have an orthorhombic structure. Cross-sectional transmission electron microscopy (TEM) shows lattice mismatch-dependent microstructural defects. Large-enough tensile strain can increase oxygen vacancies concentration near the interface and can induce vacancies in the substrate. In addition, a second phase was observed in the films with tensile strain. However, compressive strain causes dislocations in the interface and a mosaic domain structure. On the other hand, the magnetic properties of the films, including saturation magnetization, coercive field, and transport property depend systematically on the substrate-induced strain. Based on these results, the choice of appropriate substrate is an important key to obtaining high-quality GCMO film, which can affect the functionality of potential device applications.

SUBMITTER: Beiranvand A 

PROVIDER: S-EPMC8697384 | biostudies-literature | 2021 Dec

REPOSITORIES: biostudies-literature

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Strain-Induced Domain Structure and Its Impact on Magnetic and Transport Properties of Gd<sub>0.6</sub>Ca<sub>0.4</sub>MnO<sub>3</sub> Thin Films.

Beiranvand Azar A   Rivasto Elmeri E   Huhtinen Hannu H   Paturi Petriina P  

ACS omega 20211209 50


The evolution of lattice strain on crystallographic domain structures and magnetic properties of epitaxial low-bandwidth manganite Gd<sub>0.6</sub>Ca<sub>0.4</sub>MnO<sub>3</sub> (GCMO) films have been studied with films on different substrates: SrTiO<sub>3</sub>, (LaAlO<sub>3</sub>)<sub>0.3</sub>(Sr<sub>2</sub>AlTaO<sub>6</sub>)<sub>0.7</sub>, SrLaAlO<sub>3</sub>, and MgO. The X-ray diffraction data reveals that all of the films, except the films on MgO, are epitaxial and have an orthorhombic s  ...[more]

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