Ignace Jarrige, Hitoshi Yamaoka, Jean-Pascal Rueff, Jung-Fu Lin, Munetaka Taguchi, Nozomu Hiraoka, Hirofumi Ishii, Ku-Ding Tsuei, Keiichiro Imura, Takeshi Matsumura, Akira Ochiai, Hiroyuki S. Suzuki, Akio Kotani
Valence instability is a key ingredient of the unusual properties of f electron materials, yet a clear understanding is lacking as it involves a complex interplay between f electrons and conduc- tion states. Here we propose a unified picture of pressure-induced valence transition in Sm and Yb monochalcogenides, considered as model system for mixed valent 4f-electron materials. Using high-resolution x-ray absorption spectroscopy, we show that the valence transition is driven by the promotion of a 4f electron specifically into the lowest unoccupied (LU) 5d t2g band. We demonstrate with a promotional model that the nature of the transition at low pressures is intimately related to the density of states of the LU band, while at high pressures it is governed by the hybridization strength. These results set a new standard for the generic understanding of valence fluctuations in f-electron materials.
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http://arxiv.org/abs/1301.2029
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