Negative ionic states of tin in the oxide superconductor Sr3-xSnO revealed by M\"ossbauer spectroscopy

Abstract

We report the temperature variation of the 119Sn-M\"ossbauer spectra of the antiperovskite (inverse perovskite) oxide superconductor Sr3-xSnO. Both superconductive (Sr-deficient) and non-superconductive (nearly stoichiometric) samples exhibit major γ-ray absorption with isomer shift similar to that of Mg2Sn. This fact shows that Sr3-xSnO contains the metallic anion Sn4-, which is rare especially among oxides. In both samples, we observed another γ-ray absorption with a larger isomer shift, indicating that there is another ionic state of Sn with a higher oxidation number. The temperature dependence of the absorption intensities reveals that the Sn ions exhibiting larger isomer shifts have a lower energy of the local vibration. The larger isomer shift and lower vibration energy are consistent with the values estimated from the first-principles calculations for hypothetical structures with various Sr-deficiency arrangements. Therefore, we conclude that the additional γ-ray absorptions originate from the Sn atoms neighboring the Sr deficiency.