English

Valence modulations in CeRuSn

Strongly Correlated Electrons 2014-07-23 v1

Abstract

CeRuSn exhibits an extraordinary room temperature structure at 300~K with coexistence of two types of Ce ions, namely trivalent Ce3+^{3+} and intermediate valent Ce(4δ)+^{(4-\delta)+}, in a metallic environment. The ordered arrangement of these two Ce types on specific crystallographic sites results in a doubling of the unit cell along the cc-axis with respect to the basic monoclinic CeCoAl-type structure. Below room temperature, structural modulation transitions with very broad hysteresis have been reported from measurements of various bulk properties. X-ray diffraction revealed that at low temperatures the doubling of the CeCoAl type structure is replaced by a different modulated ground state, approximating a near tripling of the basic CeCoAl cell. The transition is accompanied by a significant contraction of the cc axis. We present new x-ray absorption near-edge spectroscopy data at the Ce L3_{3} absorption edge, measured on a freshly cleaved surface of a CeRuSn single crystal. In contrast to a previous report, the new data exhibit small but significant variations as function of temperature that are consistent with a transition of a fraction of Ce3+^{3+} ions to the intermediate valence state, analogous to the γα\gamma \rightarrow \alpha transition in elemental cerium, when cooling through the structural transitions of CeRuSn. Such results in a valence-modulated state.

Keywords

Cite

@article{arxiv.1405.3462,
  title  = {Valence modulations in CeRuSn},
  author = {R. Feyerherm and E. Dudzik and K. Prokes and J. A. Mydosh and Y. -K. Huang and R. Pöttgen},
  journal= {arXiv preprint arXiv:1405.3462},
  year   = {2014}
}
R2 v1 2026-06-22T04:13:53.136Z