Electronic transitions in strained SmNiO3 thin films.

Authors :: Catalano, S.
Gibert, M.
Bisogni, V.
Peil, O. E.
He, F.
Sutarto, R.
Viret, M.
Zubko, P.
Scherwitzl, R.
Georges, A.
Sawatzky, G. A.
Schmitt, T.
Triscone, J.-M.
Source :: APL Materials; 2014, Vol. 2 Issue 11, p1-7, 7p
Publication Year :: 2014
Abstract: Nickelates are known for their metal to insulator transition (MIT) and an unusual magnetic ordering, occurring at T = T<subscript>Néel</subscript>. Here, we investigate thin films of SmNiO<subscript>3</subscript> subjected to different levels of epitaxial strain. We find that the original bulk behavior (T<subscript>Néel</subscript> < TMI) is strongly affected by applying compressive strain to the films. For small compressive strains, a regime where T<subscript>Néel</subscript> = 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 SmNiO<subscript>3</subscript> lattice leads to the stabilization of a single metallic paramagnetic phase. [ABSTRACT FROM AUTHOR]