SYNCHROTRON RADIATION PHOTOELECTRON STUDY OF HEUSLER-TYPE Fe2VAl-BASED ALLOYS

K. Soda, Hidetoshi Miyazaki, Koji Yamamoto, T. Mochizuki, M. Inukai, Masahiko Kato, S. Yagi, Y. Nishino
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引用次数: 6

Abstract

The electronic structures of Heusler-type Fe2VAl-based alloys, n-type thermoelectric alloys Fe2VAl1-zXz(X = Si, Ge) and p-type one Fe2(V1-yTiy)Al, have been investigated by photoelectron spectroscopy with use of synchrotron radiation as an excitation photon source. Observed valence-band spectra of Fe2VAl agree quite well with the predicted density of states with a sharp pseudogap across the Fermi energy EF. Small substitution in Fe2VAl1-zXz and Fe2(V1-yTiy)Al reveals a rigid-band-like energy shift of the valence band, although the observed shift is smaller than expected in the rigid band model. Further substitution causes the modification of the electronic structure near EF and the appearance of mid-pseudogap states. However, the dependence of the thermoelectric properties of these alloys on substitution can be qualitatively explained by the observed change in the electronic structure near EF.
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heusler型fe2val基合金的同步辐射光电子研究
利用同步辐射作为激发光子源,用光电子能谱研究了heusler型fe2val基合金、n型Fe2VAl1-zXz(X = Si, Ge)热电合金和p型Fe2(V1-yTiy)Al热电合金的电子结构。观测到的Fe2VAl的价带光谱与预测的在费米能量EF上有明显赝隙的态密度吻合得很好。Fe2VAl1-zXz和Fe2(V1-yTiy)Al中的小取代揭示了价带的刚性带式能量转移,尽管观察到的转移比刚性带模型中的预期要小。进一步的取代导致EF附近电子结构的改变和中赝隙态的出现。然而,这些合金的热电性能对取代的依赖可以通过观察到的EF附近电子结构的变化来定性地解释。
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