Photoemission and x-ray absorption studies of valence states in (Ni,Zn,Fe,Ti)$_{3}$O$_{4}$ thin films exhibiting photo-induced magnetization

A. Fujimori; G. S. Song; H. Tabata; H. Yamagami; K. Terai; M. Kobayashi; M. Seki; M. Takizawa; S.-I. Fujimori; T. Kawai

arxiv: 0711.2377 · v1 · submitted 2007-11-15 · ❄️ cond-mat.mtrl-sci · cond-mat.str-el

Photoemission and x-ray absorption studies of valence states in (Ni,Zn,Fe,Ti)₃O₄ thin films exhibiting photo-induced magnetization

M. Kobayashi , Y. Ooki , M. Takizawa , G. S. Song , A. Fujimori , Y. Takeda , K. Terai , T. Okane

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S.-I. Fujimori Y. Saitoh H. Yamagami M. Seki T. Kawai H. Tabata

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classification ❄️ cond-mat.mtrl-sci cond-mat.str-el

keywords ionsfilmsstatesthinabsorptionmagnetizationphoto-inducedphotoemission

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By means of photoemission and x-ray absorption spectroscopy, we have studied the electronic structure of (Ni,Zn,Fe,Ti)$_{3}$O$_{4}$ thin films, which exhibits a cluster glass behavior with a spin-freezing temperature $T_f$ of $\sim 230$ K and photo-induced magnetization (PIM) below $T_f$. The Ni and Zn ions were found to be in the divalent states. Most of the Fe and Ti ions in the thin films were trivalent (Fe$^{3+}$) and tetravalent (Ti$^{4+}$), respectively. While Ti doping did not affect the valence states of the Ni and Zn ions, a small amount of Fe$^{2+}$ ions increased with Ti concentration, consistent with the proposed charge-transfer mechanism of PIM.

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Photoemission and x-ray absorption studies of valence states in (Ni,Zn,Fe,Ti)₃O₄ thin films exhibiting photo-induced magnetization

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