Electronic transitions in strained SmNiO3 thin films

S. Catalano; M. Gibert; V. Bisogni; O. E. Peil; F. He; R. Sutarto; M. Viret; P. Zubko; R. Scherwitzl; A. Georges; G. A. Sawatzky; T. Schmitt; J. M. Triscone

Journal ArticleOPEN ACCESS

Electronic transitions in strained SmNiO3 thin films

APL Materials (2014) 2(11)

DOI: 10.1063/1.4902138

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Abstract

Nickelates are known for their metal to insulator transition (MIT) and an unusual magnetic ordering, occurring at T = TNéel. Here, we investigate thin films of SmNiO3 subjected to different levels of epitaxial strain. We find that the original bulk behavior (TNéel < TMI) is strongly affected by applying compressive strain to the films. For small compressive strains, a regime where TNéel = TMI is achieved, the paramagnetic insulating phase characteristic of the bulk compound is suppressed and the MIT becomes 1st order. Further increasing the in-plane compression of the SmNiO3 lattice leads to the stabilization of a single metallic paramagnetic phase.

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APA

Catalano, S., Gibert, M., Bisogni, V., Peil, O. E., He, F., Sutarto, R., … Triscone, J. M. (2014). Electronic transitions in strained SmNiO3 thin films. APL Materials, 2(11). https://doi.org/10.1063/1.4902138

Electronic transitions in strained SmNiO3 thin films

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