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Paper detail

Mott-Kondo Insulator Behavior in the Iron Oxychalcogenides

We perform a combined experimental-theoretical study of the Fe-oxychalcogenides (FeO$\emph{Ch}$) series La$_{2}$O$_{2}$Fe$_{2}$O\emph{M}$_{2}$ (\emph{M}=S, Se), which is the latest among the Fe-based materials with the potential \ to show unconventional high-T$_{c}$ superconductivity (HTSC). A combination of incoherent Hubbard features in X-ray absorption (XAS) and resonant inelastic X-ray scattering (RIXS) spectra, as well as resitivity data, reveal that the parent FeO$\emph{Ch}$ are correlation-driven insulators. To uncover microscopics underlying these findings, we perform local density approximation-plus-dynamical mean field theory (LDA+DMFT) calculations that unravel a Mott-Kondo insulating state. Based upon good agreement between theory and a range of data, we propose that FeO$\emph{Ch}$ may constitute a new, ideal testing ground to explore HTSC arising from a strange metal proximate to a novel selective-Mott quantum criticality.

preprint2015arXivOpen access
B. FreelonYu Hao LiuJeng-Lung ChenL. CracoM. S. LaadS. LeoniJiaqi ChenLi TaoHangdong WangR. FlaucaZ. YamaniMinghu FangChinglin ChangJ. -H. GuoZ. Hussain
cond-mat.str-el
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B. FreelonYu Hao LiuJeng-Lung ChenL. CracoM. S. LaadS. LeoniJiaqi ChenLi TaoHangdong WangR. FlaucaZ. YamaniMinghu FangChinglin ChangJ. -H. GuoZ. Hussain

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