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Observation of semi-localized dispersive states in the strongly correlated electron-doped ferromagnet Eu$_{1-x}$Gd$_{x}$O

Chemical substitution plays a key role in controlling the electronic and magnetic properties of complex materials. For instance, in EuO, carrier doping can induce a spin-polarized metallic state, colossal magnetoresistance, and significantly enhance the Curie temperature. Here, we employ a combination of molecular-beam epitaxy, angle-resolved photoemission spectroscopy, and an effective model calculation to investigate and understand how semi-localized states evolve in lightly electron doped Eu$_{1-x}$Gd$_{x}$O above the ferromagnetic Curie temperature. Our studies reveal a characteristic length scale for the spatial extent of the donor wavefunctions which remains constant as a function of doping, consistent with recent tunneling studies of doped EuO. Our work sheds light on the nature of the semiconductor-to-metal transition in Eu$_{1-x}$Gd$_{x}$O and should be generally applicable for doped complex oxides.

preprint2016arXivOpen access
Daniel E. ShaiMark H. FischerAlex J. MelvilleEric J. MonkmanJohn W. HarterDawei ShenDarrell G. SchlomMichael J. LawlerEun-Ah KimKyle M. Shen
cond-mat.str-el
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Open access10 authors1 topic
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Daniel E. ShaiMark H. FischerAlex J. MelvilleEric J. MonkmanJohn W. HarterDawei ShenDarrell G. SchlomMichael J. LawlerEun-Ah KimKyle M. Shen

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