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Paper detail

Epitaxy-distorted spin-orbit Mott insulator in Sr2IrO4 thin films

High quality epitaxial thin films of Jeff=1/2 Mott insulator Sr2IrO4 with increasing in-plane tensile strain have been grown on top of SrTiO3(001) substrates. Increasing the in-plane tensile strain up to ~0.3% was observed to drop the c/a tetragonality by 1.2 %. X-ray absorption spectroscopy detected a strong reduction of the linear dichroism upon increasing in-plane tensile strain towards a reduced anisotropy in the local electronic structure. While the most relaxed thin film shows a consistent dependence with previously reported single crystal bulk measurements, electrical transport reveals a charge gap reduction from 200 meV down to 50 meV for the thinnest and most epitaxy-distorted film. We argue that the reduced tetragonality plays a major role in the change of the electronic structure, which is reflected in the change of the transport properties. Our work opens the possibility for exploiting epitaxial strain as a tool for both structural and functional manipulation of spin-orbit Mott systems.

preprint2013arXivOpen access
C. Rayan SerraoJian LiuJ. T. HeronG. Singh-BhallaA. YadavS. J. SureshaR. J. PaullD. YiJ. -H. ChuM. TrassinA. VishwanathE. ArenholzC. FronteraJ. ŽeleznýT. JungwirthX. MartiR. Ramesh
cond-mat.mtrl-sci
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C. Rayan SerraoJian LiuJ. T. HeronG. Singh-BhallaA. YadavS. J. SureshaR. J. PaullD. YiJ. -H. ChuM. TrassinA. VishwanathE. ArenholzC. FronteraJ. ŽeleznýT. JungwirthX. MartiR. Ramesh

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